Fatcat About Guide Changelog IA Scholar

Solar prominences: theory and models
Fleshing out the magnetic skeleton release_c2e6mkfoibe23otu3jyhxbuofa

by Sarah Gibson

Entity Metadata (schema)

abstracts[] {'sha1': '7ed8f212d336ad456e9deb9d13e0496a3ac3ddce', 'content': 'Magnetic fields suspend the relatively cool material of solar prominences in an otherwise hot corona. A comprehensive understanding of solar prominences ultimately requires complex and dynamic models, constrained and validated by observations spanning the solar atmosphere. We obtain the core of this understanding from observations that give us information about the structure of the "magnetic skeleton" that supports and surrounds the prominence. Energetically-sophisticated magnetohydrodynamic simulations then add flesh and blood to the skeleton, demonstrating how a thermally varying plasma may pulse through to form the prominence, and how the plasma and magnetic fields dynamically interact.', 'mimetype': 'text/plain', 'lang': 'en'}
container {'state': 'active', 'ident': 'ylheqs44bvc3rhkldyticowgfy', 'revision': '5aa841e2-f9d5-4fb5-91e4-5d807c592c88', 'redirect': None, 'extra': {'abbrev': 'Living Rev Sol Phys', 'country': 'de', 'default_license': 'CC-BY', 'doaj': {'as_of': '2022-07-06', 'default_license': 'CC-BY', 'seal': False}, 'kbart': {'clockss': {'year_spans': [[2004, 2022]]}, 'portico': {'year_spans': [[2004, 2022]]}}, 'languages': ['en'], 'publisher_type': 'big5', 'road': {'as_of': '2018-01-24'}, 'sherpa_romeo': {'color': 'green'}, 'urls': ['http://solarphysics.livingreviews.org/']}, 'edit_extra': None, 'name': 'Living Reviews in Solar Physics', 'container_type': None, 'publication_status': None, 'publisher': 'Springer-Verlag', 'issnl': '1614-4961', 'issne': '1614-4961', 'issnp': '1614-4961', 'wikidata_qid': 'Q2691360'}
container_id ylheqs44bvc3rhkldyticowgfy
contribs[] {'index': 0, 'creator_id': 'is2nxs3qljdrvkxbguuczhfgnq', 'creator': {'state': 'active', 'ident': 'is2nxs3qljdrvkxbguuczhfgnq', 'revision': '2c226e23-909a-4658-8fcb-f687c60d6e8f', 'redirect': None, 'extra': None, 'edit_extra': None, 'display_name': 'Sarah Gibson', 'given_name': 'Sarah', 'surname': 'Gibson', 'orcid': '0000-0001-9831-2640', 'wikidata_qid': None}, 'raw_name': 'Sarah E. Gibson', 'given_name': None, 'surname': None, 'role': 'author', 'raw_affiliation': None, 'extra': {'seq': 'first'}}
ext_ids {'doi': '10.1007/s41116-018-0016-2', 'wikidata_qid': None, 'isbn13': None, 'pmid': '30872983', 'pmcid': 'PMC6390890', 'core': None, 'arxiv': None, 'jstor': None, 'ark': None, 'mag': None, 'doaj': None, 'dblp': None, 'oai': None, 'hdl': None}
files[] {'state': 'active', 'ident': '7xh44ayakjdafl2izwtvovmvby', 'revision': 'a0433856-bc5f-4f2c-a671-4ca0c09c6bb6', 'redirect': None, 'extra': {}, 'edit_extra': None, 'size': 7613637, 'md5': '8c3ee804e05a5d6c33b2dbd775420f3d', 'sha1': '7d6a47777c39bacc51dd0d4871bc2d0df6970cf7', 'sha256': 'dc8f721b816dae2e7171a876b39df5bb1b079f14300dc87cad371f3dd95fe056', 'urls': [], 'mimetype': 'application/pdf', 'content_scope': None, 'release_ids': ['c2e6mkfoibe23otu3jyhxbuofa'], 'releases': None}
{'state': 'active', 'ident': 'vnm5ja4fufbjvfywe2jemorp7q', 'revision': 'f8fd211c-7f91-44b7-ba5c-abf95a93efd2', 'redirect': None, 'extra': None, 'edit_extra': None, 'size': 7810722, 'md5': 'e80a6a9f35a1d9de7de5ab9e8bf53eaa', 'sha1': '3956087fa7eab246d79eb32e830be11cd5f092c8', 'sha256': '4208c983195943032e641dd1ce1db40a775f636b6f561d7fe2089f41da480b5e', 'urls': [{'url': 'https://web.archive.org/web/20190502192837/https://link.springer.com/content/pdf/10.1007%2Fs41116-018-0016-2.pdf', 'rel': 'webarchive'}, {'url': 'https://link.springer.com/content/pdf/10.1007%2Fs41116-018-0016-2.pdf', 'rel': 'publisher'}], 'mimetype': 'application/pdf', 'content_scope': None, 'release_ids': ['c2e6mkfoibe23otu3jyhxbuofa'], 'releases': None}
filesets []
issue 1
language en
license_slug
number
original_title
pages 7
publisher Springer Nature
refs[] {'index': 0, 'target_release_id': None, 'extra': {'authors': ['T Amari'], 'unstructured': 'Amari T, Aly JJ (1989) Interaction between a line current and a two-dimensional constant-$$\\alpha $$α force-free field: an analytical model for quiescent prominences. Astron Astrophys 208:261–270', 'volume': '208'}, 'key': '16_CR1', 'year': 1989, 'container_name': 'Astron Astrophys', 'title': None, 'locator': '261'}
{'index': 1, 'target_release_id': None, 'extra': {'authors': ['T Amari'], 'unstructured': 'Amari T, Aly JJ (1990) Extended massive current sheet in a two-dimensional constant-$$\\alpha $$α force-free field: a model for quiescent prominences I. Theory. Astron Astrophys 231:213–220', 'volume': '231'}, 'key': '16_CR2', 'year': 1990, 'container_name': 'Astron Astrophys', 'title': None, 'locator': '213'}
{'index': 2, 'target_release_id': None, 'extra': {'authors': ['T Amari'], 'unstructured': 'Amari T, Aly JJ (1992) Extended massive current sheet in a two-dimensional constant-$$\\alpha $$α force-free field: a model for quiescent prominences. II. Existence and properties of inverse configurations. Astron Astrophys 265:791–805', 'volume': '265'}, 'key': '16_CR3', 'year': 1992, 'container_name': 'Astron Astrophys', 'title': None, 'locator': '791'}
{'index': 3, 'target_release_id': None, 'extra': {'authors': ['T Amari'], 'unstructured': 'Amari T, Démoulin P, Browning P, Hood A, Priest E (1991) The creation of the magnetic environment for prominence formation in a coronal arcade. Astron Astrophys 241:604–612', 'volume': '241'}, 'key': '16_CR4', 'year': 1991, 'container_name': 'Astron Astrophys', 'title': None, 'locator': '604'}
{'index': 4, 'target_release_id': None, 'extra': {'authors': ['T Amari'], 'doi': '10.1086/312053', 'unstructured': 'Amari T, Luciani JF, Mikić Z, Linker J (1999) Three-dimensional solutions of magnetohydrodynamic equations for prominence magnetic support: twisted magnetic flux rope. Astrophys J Lett 518:57. https://doi.org/10.1086/312053', 'volume': '518'}, 'key': '16_CR5', 'year': 1999, 'container_name': 'Astrophys J Lett', 'title': None, 'locator': '57'}
{'index': 5, 'target_release_id': None, 'extra': {'authors': ['T Amari'], 'doi': '10.1086/312444', 'unstructured': 'Amari T, Luciani JF, Mikić Z, Linker J (2000) A twisted flux rope model for coronal mass ejections and two-ribbon flares. Astrophys J 529:L49. https://doi.org/10.1086/312444', 'volume': '529'}, 'key': '16_CR6', 'year': 2000, 'container_name': 'Astrophys J', 'title': None, 'locator': 'L49'}
{'index': 6, 'target_release_id': None, 'extra': {'authors': ['SK Antiochos'], 'doi': '10.1086/170437', 'unstructured': 'Antiochos SK, Klimchuk JA (1991) A model for the formation of solar prominences. Astrophys J 378:372–377. https://doi.org/10.1086/170437', 'volume': '378'}, 'key': '16_CR7', 'year': 1991, 'container_name': 'Astrophys J', 'title': None, 'locator': '372'}
{'index': 7, 'target_release_id': None, 'extra': {'authors': ['SK Antiochos'], 'doi': '10.1086/187158', 'unstructured': 'Antiochos SK, Dahlburg RB, Klimchuk JA (1994) The magnetic field of solar prominences. Astrophys J Lett 420:41. https://doi.org/10.1086/187158', 'volume': '420'}, 'key': '16_CR8', 'year': 1994, 'container_name': 'Astrophys J Lett', 'title': None, 'locator': '41'}
{'index': 8, 'target_release_id': None, 'extra': {'authors': ['SK Antiochos'], 'doi': '10.1086/306804', 'unstructured': 'Antiochos SK, MacNeice PJ, Spicer DS, Klimchuk JA (1999) The dynamic formation of prominence condensations. Astrophys J 512:985. https://doi.org/10.1086/306804', 'volume': '512'}, 'key': '16_CR9', 'year': 1999, 'container_name': 'Astrophys J', 'title': None, 'locator': '985'}
{'index': 9, 'target_release_id': None, 'extra': {'authors': ['SK Antiochos'], 'doi': '10.1086/308922', 'unstructured': 'Antiochos SK, MacNeice PJ, Spicer DS (2000) The thermal nonequilibrium of prominences. Astrophys J 536:494. https://doi.org/10.1086/308922', 'volume': '536'}, 'key': '16_CR10', 'year': 2000, 'container_name': 'Astrophys J', 'title': None, 'locator': '494'}
{'index': 10, 'target_release_id': None, 'extra': {'authors': ['U Anzer'], 'doi': '10.1007/bf00150656', 'unstructured': 'Anzer U (1969) Stability analysis of the Kippenhahn–Schlüter model of solar filaments. Solar Phys 8:37–52. https://doi.org/10.1007/BF00150656'}, 'key': '16_CR11', 'year': 1969, 'container_name': 'Solar Phys', 'title': None, 'locator': '37'}
{'index': 11, 'target_release_id': None, 'extra': {'authors': ['U Anzer'], 'doi': '10.1051/0004-6361:20066817', 'unstructured': 'Anzer U, Heinzel P (2007) Is the magnetic field in quiescent prominences force-free? Astron Astrophys 467:1285–1288. https://doi.org/10.1051/0004-6361:20066817', 'volume': '467'}, 'key': '16_CR12', 'year': 2007, 'container_name': 'Astron Astrophys', 'title': None, 'locator': '1285'}
{'index': 12, 'target_release_id': None, 'extra': {'authors': ['I Arregui'], 'doi': '10.1007/s41116-018-0012-6', 'unstructured': 'Arregui I, Oliver R, Ballester JL (2018) Prominence oscillations. Living Rev Sol Phys 15:3. https://doi.org/10.1007/s41116-018-0012-6', 'volume': '15'}, 'key': '16_CR13', 'year': 2018, 'container_name': 'Living Rev Sol Phys', 'title': None, 'locator': None}
{'index': 13, 'target_release_id': None, 'extra': {'authors': ['G Aulanier'], 'unstructured': 'Aulanier G, Démoulin P (1998) 3-D magnetic configurations supporting prominences. I. The natural presence of lateral feet. Astron Astrophys 329:1125', 'volume': '329'}, 'key': '16_CR14', 'year': 1998, 'container_name': 'Astron Astrophys', 'title': None, 'locator': '1125'}
{'index': 14, 'target_release_id': None, 'extra': {'authors': ['G Aulanier'], 'unstructured': 'Aulanier G, Démoulin P, van Driel-Gesztelyi L, Mein P, Deforest C (1998) 3-D magnetic configurations supporting prominences. II. The lateral feet as a perturbation of a twisted flux-tube. Astron Astrophys 335:309–322', 'volume': '335'}, 'key': '16_CR15', 'year': 1998, 'container_name': 'Astron Astrophys', 'title': None, 'locator': '309'}
{'index': 15, 'target_release_id': None, 'extra': {'authors': ['G Aulanier'], 'unstructured': 'Aulanier G, Démoulin P, Mein N, van Driel-Gesztelyi L, Mein P, Schmieder B (1999) 3-D magnetic configurations supporting prominences. III. Evolution of fine structures observed in a filament channel. Astron Astrophys 342:867–880', 'volume': '342'}, 'key': '16_CR16', 'year': 1999, 'container_name': 'Astron Astrophys', 'title': None, 'locator': '867'}
{'index': 16, 'target_release_id': None, 'extra': {'authors': ['G Aulanier'], 'doi': '10.1086/339436', 'unstructured': 'Aulanier G, DeVore CR, Antiochos SK (2002) Prominence magnetic dips in three-dimensional sheared arcades. Astrophys J Lett 567:L97–L101. https://doi.org/10.1086/339436', 'volume': '567'}, 'key': '16_CR17', 'year': 2002, 'container_name': 'Astrophys J Lett', 'title': None, 'locator': 'L97'}
{'index': 17, 'target_release_id': None, 'extra': {'authors': ['G Aulanier'], 'doi': '10.1051/0004-6361:20053600', 'unstructured': 'Aulanier G, Pariat E, Démoulin P (2005) Current sheet formation in quasi-separatrix layers and hyperbolic flux tubes. Astron Astrophys 444:961–976. https://doi.org/10.1051/0004-6361:20053600', 'volume': '444'}, 'key': '16_CR18', 'year': 2005, 'container_name': 'Astron Astrophys', 'title': None, 'locator': '961'}
{'index': 18, 'target_release_id': None, 'extra': {'authors': ['G Aulanier'], 'doi': '10.1088/0004-637x/708/1/314', 'unstructured': 'Aulanier G, Török T, Démoulin P, DeLuca EE (2010) Formation of torus-unstable flux ropes and electric currents in erupting sigmoids. Astrophys J 708:314. https://doi.org/10.1088/0004-637X/708/1/314', 'volume': '708'}, 'key': '16_CR19', 'year': 2010, 'container_name': 'Astrophys J', 'title': None, 'locator': '314'}
{'index': 19, 'target_release_id': None, 'extra': {'authors': ['H Aurass'], 'doi': '10.1023/a:1005261709955', 'unstructured': 'Aurass H, Vršnak B, Hofmann A, Rudžjak V (1999) Flares in sigmoidal coronal structures—a case study. Solar Phys 190:267–293. https://doi.org/10.1023/A:1005261709955', 'volume': '190'}, 'key': '16_CR20', 'year': 1999, 'container_name': 'Solar Phys', 'title': None, 'locator': '267'}
{'index': 20, 'target_release_id': None, 'extra': {'authors': ['U Bąk-Stęślicka'], 'doi': '10.3389/fspas.2016.00007', 'unstructured': 'Bąk-Stęślicka U, Gibson S, Chmielewska E (2016) Line-of-sight velocity as a tracer of coronal cavity magnetic structure. Front Astron Space Sci 3:7. https://doi.org/10.3389/fspas.2016.00007'}, 'key': '16_CR21', 'year': 2016, 'container_name': 'Front Astron Space Sci', 'title': None, 'locator': None}
{'index': 21, 'target_release_id': None, 'extra': {'authors': ['U Bąk-Stęślicka'], 'doi': '10.1088/2041-8205/770/2/l28', 'unstructured': 'Bąk-Stęślicka U, Gibson SE, Fan Y, Bethge C, Forland B, Rachmeler LA (2013) Twisted magnetic structure of solar prominence cavities: new observational signature revealed by coronal magnetometry. Astrophys J 770:28. https://doi.org/10.1088/2041-8205/770/2/L28', 'volume': '770'}, 'key': '16_CR22', 'year': 2013, 'container_name': 'Astrophys J', 'title': None, 'locator': '28'}
{'index': 22, 'target_release_id': None, 'extra': {'authors': ['JL Ballester'], 'doi': '10.1007/978-3-319-10416-4_11', 'unstructured': 'Ballester JL (2015) Magnetism and dynamics of prominences: MHD waves. In: Engvold O, Vial JC (eds) Solar prominences, vol 415. Springer, Cham, pp 259–296. https://doi.org/10.1007/978-3-319-10416-4_11', 'volume-title': 'Solar prominences'}, 'key': '16_CR23', 'year': 2015, 'container_name': 'Solar prominences', 'title': None, 'locator': '259'}
{'index': 23, 'target_release_id': None, 'extra': {'authors': ['TE Berger'], 'doi': '10.1086/587171', 'unstructured': 'Berger TE, Shine RA, Slater GL, Tarbell TD, Title AM, Okamoto TJ, Ichimoto K, Katsukawa Y, Suematsu Y, Tsuneta S, Lites BW, Shimizu T (2008) Hinode SOT observations of solar quiescent prominence dynamics. Astrophys J Lett 676:L89–L92. https://doi.org/10.1086/587171', 'volume': '676'}, 'key': '16_CR24', 'year': 2008, 'container_name': 'Astrophys J Lett', 'title': None, 'locator': 'L89'}
{'index': 24, 'target_release_id': None, 'extra': {'authors': ['TE Berger'], 'doi': '10.1088/0004-637x/716/2/1288', 'unstructured': 'Berger TE, Slater G, Hurlburt N, Shine R, Tarbell T, Title A, Lites BW, Okamoto TJ, Ichimoto K, Katsukawa Y, Magara T, Suematsu Y, Shimizu T (2010) Quiescent prominence dynamics observed with the Hinode solar optical telescope. I. Turbulent upflow plumes. Astrophys J 716:1288–1307. https://doi.org/10.1088/0004-637X/716/2/1288', 'volume': '716'}, 'key': '16_CR25', 'year': 2010, 'container_name': 'Astrophys J', 'title': None, 'locator': '1288'}
{'index': 25, 'target_release_id': None, 'extra': {'authors': ['T Berger'], 'doi': '10.1038/nature09925', 'unstructured': 'Berger T, Testa P, Hillier A, Boerner P, Low BC, Shibata K, Schrijver C, Tarbell T, Title A (2011) Magneto-thermal convection in solar prominences. Nature 472:197–200. https://doi.org/10.1038/nature09925', 'volume': '472'}, 'key': '16_CR26', 'year': 2011, 'container_name': 'Nature', 'title': None, 'locator': '197'}
{'index': 26, 'target_release_id': None, 'extra': {'authors': ['V Bommier'], 'doi': '10.1007/bf00681098', 'unstructured': "Bommier V, Landi Degl'Innocenti E, Leroy JL, Sahal-Brechot S (1994) Complete determination of the magnetic field vector and of the electron density in 14 prominences from linear polarization measurements in the HeI D$$_3$$3 and H$$\\alpha $$α lines. Solar Phys 154:231–260. https://doi.org/10.1007/BF00681098", 'volume': '154'}, 'key': '16_CR27', 'year': 1994, 'container_name': 'Solar Phys', 'title': None, 'locator': '231'}
{'index': 27, 'target_release_id': None, 'extra': {'authors': ['RC Canfield'], 'doi': '10.1029/1999gl900105', 'unstructured': 'Canfield RC, Hudson HS, McKenzie DE (1999) Sigmoidal morphology and eruptive solar activity. Geophys Res Lett 26:627. https://doi.org/10.1029/1999GL900105', 'volume': '26'}, 'key': '16_CR28', 'year': 1999, 'container_name': 'Geophys Res Lett', 'title': None, 'locator': '627'}
{'index': 28, 'target_release_id': None, 'extra': {'authors': ['R Casini'], 'doi': '10.1086/380496', 'unstructured': 'Casini R, López Ariste A, Tomczyk S, Lites BW (2003) Magnetic maps of prominences from full stokes analysis of the He I D3 line. Astrophys J Lett 598:L67–L70. https://doi.org/10.1086/380496', 'volume': '598'}, 'key': '16_CR29', 'year': 2003, 'container_name': 'Astrophys J Lett', 'title': None, 'locator': 'L67'}
{'index': 29, 'target_release_id': None, 'extra': {'authors': ['J Chae'], 'doi': '10.1088/0004-637x/714/1/618', 'unstructured': 'Chae J (2010) Dynamics of vertical threads and descending knots in a hedgerow prominence. Astrophys J 714:618–629. https://doi.org/10.1088/0004-637X/714/1/618', 'volume': '714'}, 'key': '16_CR30', 'year': 2010, 'container_name': 'Astrophys J', 'title': None, 'locator': '618'}
{'index': 30, 'target_release_id': None, 'extra': {'authors': ['J Chae'], 'doi': '10.1086/429797', 'unstructured': 'Chae J, Moon YJ, Park YD (2005) The magnetic structure of filament barbs. Astrophys J 626:574–578. https://doi.org/10.1086/429797', 'volume': '626'}, 'key': '16_CR31', 'year': 2005, 'container_name': 'Astrophys J', 'title': None, 'locator': '574'}
{'index': 31, 'target_release_id': None, 'extra': {'unstructured': 'Démoulin P (1998) Magnetic fields in filaments (review). In: Webb DF, Schmieder B, Rust DM (eds) IAU Colloquium 167: New perspectives on solar prominences. ASP conference series, vol 150. Astronomical Society of the Pacific, p 78'}, 'key': '16_CR32', 'year': None, 'container_name': None, 'title': None, 'locator': None}
{'index': 32, 'target_release_id': None, 'extra': {'authors': ['P Démoulin'], 'doi': '10.1086/171091', 'unstructured': 'Démoulin P, Forbes TG (1992) Weighted current sheets supported in normal and inverse configurations: a model for prominence observations. Astrophys J 387:394–402. https://doi.org/10.1086/171091', 'volume': '387'}, 'key': '16_CR33', 'year': 1992, 'container_name': 'Astrophys J', 'title': None, 'locator': '394'}
{'index': 33, 'target_release_id': None, 'extra': {'authors': ['P Démoulin'], 'doi': '10.1007/bf00627594', 'unstructured': 'Démoulin P, Priest ER (1993) A model for an inverse-polarity prominence supported in a dip of a quadrupolar region. Solar Phys 144:283–305. https://doi.org/10.1007/BF00627594', 'volume': '144'}, 'key': '16_CR34', 'year': 1993, 'container_name': 'Solar Phys', 'title': None, 'locator': '283'}
{'index': 34, 'target_release_id': None, 'extra': {'authors': ['P Démoulin'], 'unstructured': 'Démoulin P, Raadu MA, Malherbe JM (1992) Linear force-free magnetic field around quiescent solar prominences computed from observable boundary conditions. Astron Astrophys 257:278–286', 'volume': '257'}, 'key': '16_CR35', 'year': 1992, 'container_name': 'Astron Astrophys', 'title': None, 'locator': '278'}
{'index': 35, 'target_release_id': None, 'extra': {'authors': ['P Démoulin'], 'unstructured': 'Démoulin P, Henoux JC, Priest ER, Mandrini CH (1996) Quasi-separatrix layers in solar flares. I. Method. Astron Astrophys 308:643–655', 'volume': '308'}, 'key': '16_CR36', 'year': 1996, 'container_name': 'Astron Astrophys', 'title': None, 'locator': '643'}
{'index': 36, 'target_release_id': None, 'extra': {'authors': ['CR DeVore'], 'doi': '10.1086/309275', 'unstructured': 'DeVore CR, Antiochos SK (2000) Dynamical formation and stability of helical prominence magnetic fields. Astrophys J 539:954–963. https://doi.org/10.1086/309275', 'volume': '539'}, 'key': '16_CR37', 'year': 2000, 'container_name': 'Astrophys J', 'title': None, 'locator': '954'}
{'index': 37, 'target_release_id': None, 'extra': {'authors': ['J Dove'], 'doi': '10.1088/2041-8205/731/1/l1', 'unstructured': 'Dove J, Gibson S, Rachmeler LA, Tomczyk S, Judge P (2011) A ring of polarized light: evidence for twisted coronal magnetism in cavities. Astrophys J Lett 731:1. https://doi.org/10.1088/2041-8205/731/1/L1', 'volume': '731'}, 'key': '16_CR38', 'year': 2011, 'container_name': 'Astrophys J Lett', 'title': None, 'locator': None}
{'index': 38, 'target_release_id': None, 'extra': {'authors': ['J Dudík'], 'doi': '10.1088/0004-637x/761/1/9', 'unstructured': 'Dudík J, Aulanier G, Schmieder B, Zapiór M, Heinzel P (2012) Magnetic topology of bubbles in quiescent prominences. Astrophys J 761:9. https://doi.org/10.1088/0004-637X/761/1/9', 'volume': '761'}, 'key': '16_CR39', 'year': 2012, 'container_name': 'Astrophys J', 'title': None, 'locator': None}
{'index': 39, 'target_release_id': None, 'extra': {'authors': ['O Engvold'], 'doi': '10.1007/978-94-009-3077-3_3', 'unstructured': 'Engvold O (1989) Prominence environment. In: Priest ER (ed) Dynamics and structures of quiescent prominences. Astrophysics and space science library, vol 150. Kluwer Academic, Dordrecht, pp 47–76. https://doi.org/10.1007/978-94-009-3077-3_3', 'volume-title': 'Dynamics and structures of quiescent prominences. Astrophysics and space science library'}, 'key': '16_CR40', 'year': 1989, 'container_name': 'Dynamics and structures of quiescent prominences. Astrophysics and space science library', 'title': None, 'locator': '47'}
{'index': 40, 'target_release_id': None, 'extra': {'authors': ['O Engvold'], 'doi': '10.1007/978-3-319-10416-4_2', 'unstructured': 'Engvold O (2015) Description and classification of prominences. In: Engvold O, Vial JC (eds) Solar prominences, vol 415. Springer, Cham, pp 31–60. https://doi.org/10.1007/978-3-319-10416-4_2', 'volume-title': 'Solar prominences'}, 'key': '16_CR41', 'year': 2015, 'container_name': 'Solar prominences', 'title': None, 'locator': '31'}
{'index': 41, 'target_release_id': None, 'extra': {'doi': '10.1007/978-3-319-10416-4', 'unstructured': 'Engvold O, Vial JC (eds) (2015) Solar prominences. Astrophysics and space science library. Springer, Cham. https://doi.org/10.1007/978-3-319-10416-4', 'volume-title': 'Solar prominences. Astrophysics and space science library'}, 'key': '16_CR42', 'year': 2015, 'container_name': 'Solar prominences. Astrophysics and space science library', 'title': None, 'locator': None}
{'index': 42, 'target_release_id': None, 'extra': {'authors': ['Y Fan'], 'doi': '10.1086/431733', 'unstructured': 'Fan Y (2005) Coronal mass ejections as loss of confinement of kinked magnetic flux ropes. Astrophys J 630:543. https://doi.org/10.1086/431733', 'volume': '630'}, 'key': '16_CR43', 'year': 2005, 'container_name': 'Astrophys J', 'title': None, 'locator': '543'}
{'index': 43, 'target_release_id': None, 'extra': {'authors': ['Y Fan'], 'doi': '10.1088/0004-637x/758/1/60', 'unstructured': 'Fan Y (2012) Thermal signatures of tether-cutting reconnections in pre-eruption coronal flux ropes: hot central voids in coronal cavities. Astrophys J 758:60. https://doi.org/10.1088/0004-637X/758/1/60. arXiv:1205.1028', 'volume': '758'}, 'key': '16_CR44', 'year': 2012, 'container_name': 'Astrophys J', 'title': None, 'locator': '60'}
{'index': 44, 'target_release_id': None, 'extra': {'authors': ['Y Fan'], 'doi': '10.1007/978-3-319-10416-4_12', 'unstructured': 'Fan Y (2015) MHD equilibria and triggers for eruption. In: Engvold O, Vial JC (eds) Solar prominences. Astrophysics and space science library, vol 415. Springer, Cham, pp 297–322. https://doi.org/10.1007/978-3-319-10416-4_12', 'volume-title': 'Solar prominences. Astrophysics and space science library'}, 'key': '16_CR45', 'year': 2015, 'container_name': 'Solar prominences. Astrophysics and space science library', 'title': None, 'locator': '297'}
{'index': 45, 'target_release_id': None, 'extra': {'authors': ['Y Fan'], 'doi': '10.3847/1538-4357/aa7a56', 'unstructured': 'Fan Y (2017) MHD simulations of the eruption of coronal flux ropes under coronal streamers. Astrophys J 844:26. https://doi.org/10.3847/1538-4357/aa7a56. arXiv:1706.06076', 'volume': '844'}, 'key': '16_CR46', 'year': 2017, 'container_name': 'Astrophys J', 'title': None, 'locator': '26'}
{'index': 46, 'target_release_id': None, 'extra': {'authors': ['Y Fan'], 'doi': '10.1086/421238', 'unstructured': 'Fan Y, Gibson SE (2004) Numerical simulations of three-dimensional coronal magnetic fields resulting from the emergence of twisted magnetic flux tubes. Astrophys J 609:1123. https://doi.org/10.1086/421238', 'volume': '609'}, 'key': '16_CR47', 'year': 2004, 'container_name': 'Astrophys J', 'title': None, 'locator': '1123'}
{'index': 47, 'target_release_id': None, 'extra': {'authors': ['Y Fan'], 'doi': '10.1086/504107', 'unstructured': 'Fan Y, Gibson SE (2006) On the nature of the X-ray bright core in a stable filament channel. Astrophys J Lett 641:149. https://doi.org/10.1086/504107', 'volume': '641'}, 'key': '16_CR48', 'year': 2006, 'container_name': 'Astrophys J Lett', 'title': None, 'locator': '149'}
{'index': 48, 'target_release_id': None, 'extra': {'authors': ['TG Forbes'], 'doi': '10.1086/170051', 'unstructured': 'Forbes TG, Isenberg PA (1991) A catastrophe mechanism for coronal mass ejections. Astrophys J 373:294–307. https://doi.org/10.1086/170051', 'volume': '373'}, 'key': '16_CR49', 'year': 1991, 'container_name': 'Astrophys J', 'title': None, 'locator': '294'}
{'index': 49, 'target_release_id': None, 'extra': {'authors': ['BF Forland'], 'doi': '10.1007/s11207-013-0361-1', 'unstructured': 'Forland BF, Gibson SE, Dove JB, Rachmeler LA, Fan Y (2013) Coronal cavity survey: morphological clues to eruptive magnetic topologies. Solar Phys 288:603–615. https://doi.org/10.1007/s11207-013-0361-1', 'volume': '288'}, 'key': '16_CR50', 'year': 2013, 'container_name': 'Solar Phys', 'title': None, 'locator': '603'}
{'index': 50, 'target_release_id': None, 'extra': {'authors': ['J Fuller'], 'doi': '10.1086/533527', 'unstructured': 'Fuller J, Gibson SE, de Toma G, Fan Y (2008) Observing the unobservable? Modeling coronal cavity density. Astrophys J 678:515. https://doi.org/10.1086/533527', 'volume': '678'}, 'key': '16_CR51', 'year': 2008, 'container_name': 'Astrophys J', 'title': None, 'locator': '515'}
{'index': 51, 'target_release_id': None, 'extra': {'authors': ['K Galsgaard'], 'doi': '10.1086/377258', 'unstructured': 'Galsgaard K, Titov VS, Neukirch T (2003) Magnetic pinching of hyperbolic flux tubes II. Dynamic numerical model. Astrophys J 595:506. https://doi.org/10.1086/377258', 'volume': '595'}, 'key': '16_CR52', 'year': 2003, 'container_name': 'Astrophys J', 'title': None, 'locator': '506'}
{'index': 52, 'target_release_id': None, 'extra': {'authors': ['S Gibson'], 'doi': '10.1017/s1743921313010879', 'unstructured': 'Gibson S (2014) Magnetism and the invisible man: the mysteries of coronal cavities. In: Schmieder B, Malherbe JM, Wu ST (eds) Nature of prominences and their role in space weather. IAU Symposium, vol 300. Cambridge University Press, Cambridge, pp 139–146. https://doi.org/10.1017/S1743921313010879', 'volume-title': 'Nature of prominences and their role in space weather. IAU Symposium'}, 'key': '16_CR53', 'year': 2014, 'container_name': 'Nature of prominences and their role in space weather. IAU Symposium', 'title': None, 'locator': '139'}
{'index': 53, 'target_release_id': None, 'extra': {'authors': ['S Gibson'], 'doi': '10.1007/978-3-319-10416-4_13', 'unstructured': 'Gibson S (2015) Coronal cavities: observations and implications for the magnetic environment of prominences. In: Engvold O, Vial JC (eds) Solar prominences. Astrophysics and space science library, vol 415. Springer, Cham, pp 323–353. https://doi.org/10.1007/978-3-319-10416-4_13', 'volume-title': 'Solar prominences. Astrophysics and space science library'}, 'key': '16_CR54', 'year': 2015, 'container_name': 'Solar prominences. Astrophysics and space science library', 'title': None, 'locator': '323'}
{'index': 54, 'target_release_id': None, 'extra': {'authors': ['SE Gibson'], 'doi': '10.1029/2006ja011871', 'unstructured': 'Gibson SE, Fan Y (2006a) Coronal prominence structure and dynamics: a magnetic flux rope interpretation. J Geophys Res 111:A12103. https://doi.org/10.1029/2006JA011871', 'volume': '111'}, 'key': '16_CR55', 'year': 2006, 'container_name': 'J Geophys Res', 'title': None, 'locator': 'A12103'}
{'index': 55, 'target_release_id': None, 'extra': {'authors': ['SE Gibson'], 'doi': '10.1086/500452', 'unstructured': 'Gibson SE, Fan Y (2006b) The partial expulsion of a magnetic flux rope. Astrophys J Lett 637:65. https://doi.org/10.1086/500452', 'volume': '637'}, 'key': '16_CR56', 'year': 2006, 'container_name': 'Astrophys J Lett', 'title': None, 'locator': '65'}
{'index': 56, 'target_release_id': None, 'extra': {'authors': ['SE Gibson'], 'doi': '10.1029/2008ja013151', 'unstructured': 'Gibson SE, Fan Y (2008) Partially-ejected flux ropes: implications for interplanetary coronal mass ejections. J Geophys Res 113:A09103. https://doi.org/10.1029/2008JA013151', 'volume': '113'}, 'key': '16_CR57', 'year': 2008, 'container_name': 'J Geophys Res', 'title': None, 'locator': 'A09103'}
{'index': 57, 'target_release_id': None, 'extra': {'authors': ['SE Gibson'], 'doi': '10.1086/305107', 'unstructured': 'Gibson SE, Low BC (1998) A time-dependent three-dimensional magnetohydrodynamic model of the coronal mass ejection. Astrophys J 493:460. https://doi.org/10.1086/305107', 'volume': '493'}, 'key': '16_CR58', 'year': 1998, 'container_name': 'Astrophys J', 'title': None, 'locator': '460'}
{'index': 58, 'target_release_id': None, 'extra': {'authors': ['SE Gibson'], 'doi': '10.1029/1999ja000317', 'issue': '18', 'unstructured': 'Gibson SE, Low BC (2000) Three-dimensional and twisted: an MHD interpretation of on-disk observational characteristics of coronal mass ejections. J Geophys Res 105(18):187. https://doi.org/10.1029/1999JA000317', 'volume': '105'}, 'key': '16_CR59', 'year': 2000, 'container_name': 'J Geophys Res', 'title': None, 'locator': '187'}
{'index': 59, 'target_release_id': None, 'extra': {'authors': ['SE Gibson'], 'doi': '10.1086/341090', 'unstructured': 'Gibson SE, Fletcher L, Del Zanna G, Pike CD, Mason HE, Mandrini CH, Démoulin P, Gilbert H, Burkepile J, Holzer T, Alexander D, Liu Y, Nitta N, Qiu J, Schmieder B, Thompson BJ (2002) The structure and evolution of a sigmoidal active region. Astrophys J 574:265. https://doi.org/10.1086/341090', 'volume': '574'}, 'key': '16_CR60', 'year': 2002, 'container_name': 'Astrophys J', 'title': None, 'locator': '265'}
{'index': 60, 'target_release_id': None, 'extra': {'authors': ['SE Gibson'], 'doi': '10.1086/425294', 'unstructured': 'Gibson SE, Fan Y, Mandrini C, Fisher G, Démoulin P (2004) Observational consequences of a magnetic flux rope emerging into the corona. Astrophys J 617:600. https://doi.org/10.1086/425294', 'volume': '617'}, 'key': '16_CR61', 'year': 2004, 'container_name': 'Astrophys J', 'title': None, 'locator': '600'}
{'index': 61, 'target_release_id': None, 'extra': {'authors': ['SE Gibson'], 'doi': '10.1007/978-0-387-69532-7_10', 'unstructured': 'Gibson SE, Fan Y, Török T, Kliem B (2006a) The evolving sigmoid: evidence for magnetic flux ropes in the corona before, during, and after CMEs. In: Baker DN, Klecker B, Schwartz SJ, Schwenn R, Von Steiger R (eds) Solar dynamics and its effects on the heliosphere and earth. Space sciences series of ISSI, vol 22. Springer, New York, pp 131–144. https://doi.org/10.1007/978-0-387-69532-7_10', 'volume-title': 'Solar dynamics and its effects on the heliosphere and earth. Space sciences series of ISSI'}, 'key': '16_CR62', 'year': 2006, 'container_name': 'Solar dynamics and its effects on the heliosphere and earth. Space sciences series of ISSI', 'title': None, 'locator': '131'}
{'index': 62, 'target_release_id': None, 'extra': {'authors': ['SE Gibson'], 'doi': '10.1086/500446', 'unstructured': 'Gibson SE, Foster D, Burkepile J, de Toma G, Stanger A (2006b) The calm before the storm: the link between quiescent cavities and CMEs. Astrophys J 641:590. https://doi.org/10.1086/500446', 'volume': '641'}, 'key': '16_CR63', 'year': 2006, 'container_name': 'Astrophys J', 'title': None, 'locator': '590'}
{'index': 63, 'target_release_id': None, 'extra': {'authors': ['SE Gibson'], 'doi': '10.1088/0004-637x/724/2/1133', 'unstructured': 'Gibson SE, Kucera TA, Rastawicki D, Dove J, de Toma G, Hao J, Hill S, Hudson HS, Marque C, McIntosh PS, Rachmeler L, Reeves KK, Schmieder B, Schmit DJ, Seaton DB, Sterling AC, Tripathi D, Williams DR, Zhang M (2010) Three-dimensional morphology of a coronal prominence cavity. Astrophys J 723:1133. https://doi.org/10.1088/0004-637X/724/2/1133', 'volume': '723'}, 'key': '16_CR64', 'year': 2010, 'container_name': 'Astrophys J', 'title': None, 'locator': '1133'}
{'index': 64, 'target_release_id': None, 'extra': {'authors': ['S Gibson'], 'doi': '10.3389/fspas.2016.00008', 'unstructured': 'Gibson S, Kucera T, White S, Dove J, Fan Y, Forland B, Rachmeler L, Downs C, Reeves K (2016) FORWARD: a toolset for multiwavelength coronal magnetometry. Front Astron Space Sci 3:8. https://doi.org/10.3389/fspas.2016.00008'}, 'key': '16_CR65', 'year': 2016, 'container_name': 'Front Astron Space Sci', 'title': None, 'locator': None}
{'index': 65, 'target_release_id': None, 'extra': {'authors': ['H Gilbert'], 'doi': '10.1007/978-3-319-10416-4_7', 'unstructured': 'Gilbert H (2015) Energy balance. In: Engvold O, Vial JC (eds) Solar prominences. Astrophysics and space science library, vol 415. Springer, Cham, pp 157–178. https://doi.org/10.1007/978-3-319-10416-4_7', 'volume-title': 'Solar prominences. Astrophysics and space science library'}, 'key': '16_CR66', 'year': 2015, 'container_name': 'Solar prominences. Astrophysics and space science library', 'title': None, 'locator': '157'}
{'index': 66, 'target_release_id': None, 'extra': {'authors': ['HR Gilbert'], 'doi': '10.1086/309030', 'unstructured': 'Gilbert HR, Holzer TE, Burkepile JT, Hundhausen AJ (2000) Active and eruptive prominences and their relationship to coronal mass ejections. Astrophys J 537:503. https://doi.org/10.1086/309030', 'volume': '537'}, 'key': '16_CR67', 'year': 2000, 'container_name': 'Astrophys J', 'title': None, 'locator': '503'}
{'index': 67, 'target_release_id': None, 'extra': {'authors': ['HR Gilbert'], 'doi': '10.1086/342165', 'unstructured': 'Gilbert HR, Hansteen VH, Holzer TE (2002) Neutral atom diffusion in a partially ionized prominence plasma. Astrophys J 577:464–474. https://doi.org/10.1086/342165', 'volume': '577'}, 'key': '16_CR68', 'year': 2002, 'container_name': 'Astrophys J', 'title': None, 'locator': '464'}
{'index': 68, 'target_release_id': None, 'extra': {'authors': ['A Glover'], 'doi': '10.1029/2000gl000018', 'unstructured': 'Glover A, Ranns NDR, Harra LK, Culhane JL (2000) The onset and association of CMEs with sigmoidal active regions. Geophys Res Lett 27:2161. https://doi.org/10.1029/2000GL000018', 'volume': '27'}, 'key': '16_CR69', 'year': 2000, 'container_name': 'Geophys Res Lett', 'title': None, 'locator': '2161'}
{'index': 69, 'target_release_id': None, 'extra': {'authors': ['N Gopalswamy'], 'doi': '10.1007/978-3-319-10416-4_15', 'unstructured': 'Gopalswamy N (2015) The dynamics of eruptive prominences. In: Engvold O, Vial JC (eds) Solar prominences, vol 415. Springer, Cham, pp 381–410. https://doi.org/10.1007/978-3-319-10416-4_15', 'volume-title': 'Solar prominences'}, 'key': '16_CR70', 'year': 2015, 'container_name': 'Solar prominences', 'title': None, 'locator': '381'}
{'index': 70, 'target_release_id': None, 'extra': {'authors': ['LM Green'], 'doi': '10.1088/0004-637x/700/2/l83', 'unstructured': 'Green LM, Kliem B (2009) Flux rope formation preceding coronal mass ejection onset. Astrophys J Lett 700:L83. https://doi.org/10.1088/0004-637X/700/2/L83', 'volume': '700'}, 'key': '16_CR71', 'year': 2009, 'container_name': 'Astrophys J Lett', 'title': None, 'locator': 'L83'}
{'index': 71, 'target_release_id': None, 'extra': {'authors': ['LM Green'], 'doi': '10.1007/s11207-007-9061-z', 'unstructured': 'Green LM, Kliem B, Török T, van Driel-Gesztelyi L, Attrill GDR (2007) Transient coronal sigmoids and rotating erupting flux ropes. Solar Phys 246:345. https://doi.org/10.1007/s11207-007-9061-z', 'volume': '246'}, 'key': '16_CR72', 'year': 2007, 'container_name': 'Solar Phys', 'title': None, 'locator': '345'}
{'index': 72, 'target_release_id': None, 'extra': {'authors': ['S Gunár'], 'doi': '10.1088/0004-637x/803/2/64', 'unstructured': 'Gunár S, Mackay DH (2015a) 3D whole-prominence fine structure modeling. Astrophys J 803:64. https://doi.org/10.1088/0004-637X/803/2/64', 'volume': '803'}, 'key': '16_CR73', 'year': 2015, 'container_name': 'Astrophys J', 'title': None, 'locator': '64'}
{'index': 73, 'target_release_id': None, 'extra': {'authors': ['S Gunár'], 'doi': '10.1088/0004-637x/812/2/93', 'unstructured': 'Gunár S, Mackay DH (2015b) 3D whole-prominence fine structure modeling. II. Prominence evolution. Astrophys J 812:93. https://doi.org/10.1088/0004-637X/812/2/93', 'volume': '812'}, 'key': '16_CR74', 'year': 2015, 'container_name': 'Astrophys J', 'title': None, 'locator': '93'}
{'index': 74, 'target_release_id': None, 'extra': {'authors': ['S Gunár'], 'doi': '10.1051/0004-6361/201220597', 'unstructured': 'Gunár S, Mackay DH, Anzer U, Heinzel P (2013) Non-linear force-free magnetic dip models of quiescent prominence fine structures. Astron Astrophys 551:A3. https://doi.org/10.1051/0004-6361/201220597', 'volume': '551'}, 'key': '16_CR75', 'year': 2013, 'container_name': 'Astron Astrophys', 'title': None, 'locator': 'A3'}
{'index': 75, 'target_release_id': None, 'extra': {'authors': ['S Gunár'], 'doi': '10.1051/0004-6361/201322777', 'unstructured': 'Gunár S, Schwartz P, Dudík J, Schmieder B, Heinzel P, Jurčák J (2014) Magnetic field and radiative transfer modelling of a quiescent prominence. Astron Astrophys 567:A123. https://doi.org/10.1051/0004-6361/201322777', 'volume': '567'}, 'key': '16_CR76', 'year': 2014, 'container_name': 'Astron Astrophys', 'title': None, 'locator': 'A123'}
{'index': 76, 'target_release_id': None, 'extra': {'authors': ['S Gunár'], 'doi': '10.3847/1538-4357/833/2/141', 'unstructured': 'Gunár S, Heinzel P, Mackay DH, Anzer U (2016) Quiescent prominences in the era of ALMA: simulated observations using the 3D whole-prominence fine structure model. Astrophys J 833:141. https://doi.org/10.3847/1538-4357/833/2/141', 'volume': '833'}, 'key': '16_CR77', 'year': 2016, 'container_name': 'Astrophys J', 'title': None, 'locator': '141'}
{'index': 77, 'target_release_id': None, 'extra': {'authors': ['SR Habbal'], 'doi': '10.1088/0004-637x/719/2/1362', 'unstructured': 'Habbal SR, Druckmueller M, Morgan H, Scholl I, Rusin V, Daw A, Johnson J, Arndt M (2010) Total solar eclipse observations of hot prominence shrouds. Astrophys J 719:1362. https://doi.org/10.1088/0004-637X/719/2/1362', 'volume': '719'}, 'key': '16_CR78', 'year': 2010, 'container_name': 'Astrophys J', 'title': None, 'locator': '1362'}
{'index': 78, 'target_release_id': None, 'extra': {'authors': ['P Heinzel'], 'doi': '10.1007/978-3-319-10416-4_5', 'unstructured': 'Heinzel P (2015) Radiative transfer in solar prominences. In: Engvold O, Vial JC (eds) Solar prominences. Astrophysics and space science library, vol 415. Springer, Cham, pp 103–130. https://doi.org/10.1007/978-3-319-10416-4_5', 'volume-title': 'Solar prominences. Astrophysics and space science library'}, 'key': '16_CR79', 'year': 2015, 'container_name': 'Solar prominences. Astrophysics and space science library', 'title': None, 'locator': '103'}
{'index': 79, 'target_release_id': None, 'extra': {'authors': ['P Heinzel'], 'doi': '10.1051/0004-6361:20010926', 'unstructured': 'Heinzel P, Anzer U (2001) Prominence fine structures in a magnetic equilibrium: two-dimensional models with multilevel radiative transfer. Astron Astrophys 375:1082–1090. https://doi.org/10.1051/0004-6361:20010926', 'volume': '375'}, 'key': '16_CR80', 'year': 2001, 'container_name': 'Astron Astrophys', 'title': None, 'locator': '1082'}
{'index': 80, 'target_release_id': None, 'extra': {'authors': ['P Heinzel'], 'doi': '10.1051/0004-6361/201525716', 'unstructured': 'Heinzel P, Gunár S, Anzer U (2015) Fast approximate radiative transfer method for visualizing the fine structure of prominences in the hydrogen H$$\\alpha $$α line. Astron Astrophys 579:A16. https://doi.org/10.1051/0004-6361/201525716', 'volume': '579'}, 'key': '16_CR81', 'year': 2015, 'container_name': 'Astron Astrophys', 'title': None, 'locator': 'A16'}
{'index': 81, 'target_release_id': None, 'extra': {'authors': ['A Hillier'], 'doi': '10.1007/s41614-017-0013-2', 'unstructured': 'Hillier A (2018) The magnetic Rayleigh–Taylor instability in solar prominences. Rev Mod Plasma Phys 2:1. https://doi.org/10.1007/s41614-017-0013-2'}, 'key': '16_CR82', 'year': 2018, 'container_name': 'Rev Mod Plasma Phys', 'title': None, 'locator': None}
{'index': 82, 'target_release_id': None, 'extra': {'authors': ['A Hillier'], 'doi': '10.1088/0004-637x/766/2/126', 'unstructured': 'Hillier A, van Ballegooijen A (2013) On the support of solar prominence material by the dips of a coronal flux tube. Astrophys J 766:126. https://doi.org/10.1088/0004-637X/766/2/126. arXiv:1303.4130', 'volume': '766'}, 'key': '16_CR83', 'year': 2013, 'container_name': 'Astrophys J', 'title': None, 'locator': '126'}
{'index': 83, 'target_release_id': None, 'extra': {'authors': ['A Hillier'], 'doi': '10.1088/2041-8205/736/1/l1', 'unstructured': 'Hillier A, Isobe H, Shibata K, Berger T (2011) Numerical simulations of the magnetic Rayleigh–Taylor instability in the Kippenhahn–Schlüter prominence model. Astrophys J Lett 736:L1. https://doi.org/10.1088/2041-8205/736/1/L1. arXiv:1107.4882', 'volume': '736'}, 'key': '16_CR84', 'year': 2011, 'container_name': 'Astrophys J Lett', 'title': None, 'locator': 'L1'}
{'index': 84, 'target_release_id': None, 'extra': {'authors': ['A Hillier'], 'doi': '10.1088/0004-637x/746/2/120', 'unstructured': 'Hillier A, Berger T, Isobe H, Shibata K (2012a) Numerical simulations of the magnetic Rayleigh–Taylor instability in the Kippenhahn–Schlüter prominence model. I. Formation of upflows. Astrophys J 746:120. https://doi.org/10.1088/0004-637X/746/2/120', 'volume': '746'}, 'key': '16_CR85', 'year': 2012, 'container_name': 'Astrophys J', 'title': None, 'locator': '120'}
{'index': 85, 'target_release_id': None, 'extra': {'authors': ['A Hillier'], 'doi': '10.1088/0004-637x/756/2/110', 'unstructured': 'Hillier A, Isobe H, Shibata K, Berger T (2012b) Numerical simulations of the magnetic Rayleigh–Taylor instability in the Kippenhahn–Schlüter prominence model. II. Reconnection-triggered downflows. Astrophys J 756:110. https://doi.org/10.1088/0004-637X/756/2/110. arXiv:1106.2613', 'volume': '756'}, 'key': '16_CR86', 'year': 2012, 'container_name': 'Astrophys J', 'title': None, 'locator': '110'}
{'index': 86, 'target_release_id': None, 'extra': {'authors': ['HS Hudson'], 'doi': '10.1086/311892', 'unstructured': 'Hudson HS, Acton LW, Harvey KA, McKenzie DM (1999) A stable filament cavity with a hot core. Astrophys J 513:83. https://doi.org/10.1086/311892', 'volume': '513'}, 'key': '16_CR87', 'year': 1999, 'container_name': 'Astrophys J', 'title': None, 'locator': '83'}
{'index': 87, 'target_release_id': None, 'extra': {'authors': ['AW James'], 'doi': '10.1007/s11207-017-1093-4', 'unstructured': 'James AW, Green LM, Palmerio E, Valori G, Reid HAS, Baker D, Brooks DH, van Driel-Gesztelyi L, Kilpua EKJ (2017) On-disc observations of flux rope formation prior to its eruption. Solar Phys 292:71. https://doi.org/10.1007/s11207-017-1093-4. arXiv:1703.10837', 'volume': '292'}, 'key': '16_CR88', 'year': 2017, 'container_name': 'Solar Phys', 'title': None, 'locator': '71'}
{'index': 88, 'target_release_id': None, 'extra': {'authors': ['N Karna'], 'doi': '10.1088/0004-637x/810/2/123', 'unstructured': 'Karna N, Pesnell WD, Zhang J (2015a) Appearances and statistics of coronal cavities during the ascending phase of solar cycle 24. Astrophys J 810:123. https://doi.org/10.1088/0004-637X/810/2/123', 'volume': '810'}, 'key': '16_CR89', 'year': 2015, 'container_name': 'Astrophys J', 'title': None, 'locator': '123'}
{'index': 89, 'target_release_id': None, 'extra': {'authors': ['N Karna'], 'doi': '10.1088/0004-637x/810/2/124', 'unstructured': 'Karna N, Zhang J, Pesnell WD, Hess Webber SA (2015b) Study of the 3D geometric structure and temperature of a coronal cavity using the limb synoptic map method. Astrophys J 810:124. https://doi.org/10.1088/0004-637X/810/2/124', 'volume': '810'}, 'key': '16_CR90', 'year': 2015, 'container_name': 'Astrophys J', 'title': None, 'locator': '124'}
{'index': 90, 'target_release_id': None, 'extra': {'authors': ['N Karna'], 'doi': '10.3847/1538-4357/835/2/135', 'unstructured': 'Karna N, Zhang J, Pesnell WD (2017) The formation and maintenance of the dominant southern polar crown cavity of cycle 24. Astrophys J 835:135. https://doi.org/10.3847/1538-4357/835/2/135', 'volume': '835'}, 'key': '16_CR91', 'year': 2017, 'container_name': 'Astrophys J', 'title': None, 'locator': '135'}
{'index': 91, 'target_release_id': None, 'extra': {'authors': ['JT Karpen'], 'doi': '10.1007/978-3-319-10416-4_10', 'unstructured': 'Karpen JT (2015) Plasma structure and dynamics. In: Engvold O, Vial JC (eds) Solar prominences, vol 415. Springer, Cham, pp 237–257. https://doi.org/10.1007/978-3-319-10416-4_10', 'volume-title': 'Solar prominences'}, 'key': '16_CR92', 'year': 2015, 'container_name': 'Solar prominences', 'title': None, 'locator': '237'}
{'index': 92, 'target_release_id': None, 'extra': {'authors': ['JT Karpen'], 'doi': '10.1086/320497', 'unstructured': 'Karpen JT, Antiochos SK, Hohensee M, Klimchuk JA, MacNeice PJ (2001) Are magnetic dips necessary for prominence formation? Astrophys J Lett 553:L85–L88. https://doi.org/10.1086/320497', 'volume': '553'}, 'key': '16_CR93', 'year': 2001, 'container_name': 'Astrophys J Lett', 'title': None, 'locator': 'L85'}
{'index': 93, 'target_release_id': None, 'extra': {'authors': ['E Khomenko'], 'doi': '10.1051/0004-6361/201322918', 'unstructured': 'Khomenko E, Díaz A, de Vicente A, Collados M, Luna M (2014) Rayleigh–Taylor instability in prominences from numerical simulations including partial ionization effects. Astron Astrophys 565:A45. https://doi.org/10.1051/0004-6361/201322918. arXiv:1403.4530', 'volume': '565'}, 'key': '16_CR94', 'year': 2014, 'container_name': 'Astron Astrophys', 'title': None, 'locator': 'A45'}
{'index': 94, 'target_release_id': None, 'extra': {'authors': ['R Kippenhahn'], 'unstructured': 'Kippenhahn R, Schlüter A (1957) Eine Theorie der solaren Filamente. Z Astrophys 43:36', 'volume': '43'}, 'key': '16_CR95', 'year': 1957, 'container_name': 'Z Astrophys', 'title': None, 'locator': '36'}
{'index': 95, 'target_release_id': None, 'extra': {'authors': ['B Kliem'], 'doi': '10.1051/0004-6361:20031690', 'unstructured': 'Kliem B, Titov VS, Török T (2004) Formation of current sheets and sigmoidal structure by the kink instability of a magnetic loop. Astron Astrophys 413:L23–L26. https://doi.org/10.1051/0004-6361:20031690. arXiv:astro-ph/0311199', 'volume': '413'}, 'key': '16_CR96', 'year': 2004, 'container_name': 'Astron Astrophys', 'title': None, 'locator': 'L23'}
{'index': 96, 'target_release_id': None, 'extra': {'authors': ['JA Klimchuk'], 'doi': '10.1086/168731', 'unstructured': 'Klimchuk JA (1990) Shear-induced inflation of coronal magnetic fields. Astrophys J 354:745–754. https://doi.org/10.1086/168731', 'volume': '354'}, 'key': '16_CR97', 'year': 1990, 'container_name': 'Astrophys J', 'title': None, 'locator': '745'}
{'index': 97, 'target_release_id': None, 'extra': {'authors': ['S Koutchmy'], 'doi': '10.1051/0004-6361:20040109', 'unstructured': 'Koutchmy S, Baudin F, Bocchialini K, Daniel JY, Delaboudinière JP, Golub L, Lamy P, Adjabshirizadeh A (2004) The August 11th, 1999 CME. Astron Astrophys 420:709–718. https://doi.org/10.1051/0004-6361:20040109', 'volume': '420'}, 'key': '16_CR98', 'year': 2004, 'container_name': 'Astron Astrophys', 'title': None, 'locator': '709'}
{'index': 98, 'target_release_id': None, 'extra': {'authors': ['TA Kucera'], 'doi': '10.1007/978-3-319-10416-4_4', 'unstructured': 'Kucera TA (2015) Derivations and observations of prominence bulk motions and mass. In: Engvold O, Vial JC (eds) Solar prominences. Astrophysics and space science library, vol 415. Springer, Cham, pp 79–101. https://doi.org/10.1007/978-3-319-10416-4_4', 'volume-title': 'Solar prominences. Astrophysics and space science library'}, 'key': '16_CR99', 'year': 2015, 'container_name': 'Solar prominences. Astrophysics and space science library', 'title': None, 'locator': '79'}
{'index': 99, 'target_release_id': None, 'extra': {'authors': ['TA Kucera'], 'doi': '10.1088/0004-637x/757/1/73', 'unstructured': 'Kucera TA, Gibson SE, Schmit DJ, Landi E, Tripathi D (2012) Temperature and EUV intensity in a coronal prominence cavity. Astrophys J 757:73. https://doi.org/10.1088/0004-637X/757/1/73', 'volume': '757'}, 'key': '16_CR100', 'year': 2012, 'container_name': 'Astrophys J', 'title': None, 'locator': '73'}
{'index': 100, 'target_release_id': None, 'extra': {'authors': ['C Kuckein'], 'doi': '10.1051/0004-6361/200911800', 'unstructured': 'Kuckein C, Centeno R, Martínez Pillet V, Casini R, Manso Sainz R, Shimizu T (2009) Magnetic field strength of active region filaments. Astron Astrophys 501:1113–1121. https://doi.org/10.1051/0004-6361/200911800. arXiv:0904.4876', 'volume': '501'}, 'key': '16_CR101', 'year': 2009, 'container_name': 'Astron Astrophys', 'title': None, 'locator': '1113'}
{'index': 101, 'target_release_id': None, 'extra': {'authors': ['MR Kundu'], 'unstructured': 'Kundu MR, Fuerst E, Hirth W, Butz M (1978) Multifrequency observations of solar filaments at centimeter wavelengths. Astron Astrophys 62:431–437', 'volume': '62'}, 'key': '16_CR102', 'year': 1978, 'container_name': 'Astron Astrophys', 'title': None, 'locator': '431'}
{'index': 102, 'target_release_id': None, 'extra': {'authors': ['M Kuperus'], 'unstructured': 'Kuperus M, Raadu MA (1974) The support of prominences formed in neutral sheets. Astron Astrophys 31:189', 'volume': '31'}, 'key': '16_CR103', 'year': 1974, 'container_name': 'Astron Astrophys', 'title': None, 'locator': '189'}
{'index': 103, 'target_release_id': None, 'extra': {'authors': ['K Kusano'], 'doi': '10.1086/432570', 'unstructured': 'Kusano K (2005) Simulation study of the formation mechanism of sigmoidal structure in the solar corona. Astrophys J 631:1260–1269. https://doi.org/10.1086/432570', 'volume': '631'}, 'key': '16_CR104', 'year': 2005, 'container_name': 'Astrophys J', 'title': None, 'locator': '1260'}
{'index': 104, 'target_release_id': None, 'extra': {'authors': ['N Labrosse'], 'doi': '10.1007/978-3-319-10416-4_6', 'unstructured': 'Labrosse N (2015) Derivation of the major properties of prominences using NLTE modeling. In: Engvold O, Vial JC (eds) Solar prominences. Astrophysics and space science library, vol 415. Springer, Cham, pp 131–155. https://doi.org/10.1007/978-3-319-10416-4_6', 'volume-title': 'Solar prominences. Astrophysics and space science library'}, 'key': '16_CR105', 'year': 2015, 'container_name': 'Solar prominences. Astrophysics and space science library', 'title': None, 'locator': '131'}
{'index': 105, 'target_release_id': None, 'extra': {'authors': ['N Labrosse'], 'doi': '10.1007/s11214-010-9630-6', 'unstructured': 'Labrosse N, Heinzel P, Vial JC, Kucera T, Parenti S, Gunár S, Schmieder B, Kilper G (2010) Physics of solar prominences: I—spectral diagnostics and non-LTE modelling. Space Sci Rev 151:243–332. https://doi.org/10.1007/s11214-010-9630-6. arXiv:1001.1620', 'volume': '151'}, 'key': '16_CR106', 'year': 2010, 'container_name': 'Space Sci Rev', 'title': None, 'locator': '243'}
{'index': 106, 'target_release_id': None, 'extra': {'authors': ['I Lerche'], 'doi': '10.1007/bf00149804', 'unstructured': 'Lerche I, Low BC (1980) On the equilibrium of a cylindrical plasma supported horizontally by magnetic fields in uniform gravity. Solar Phys 67:229–243. https://doi.org/10.1007/BF00149804', 'volume': '67'}, 'key': '16_CR107', 'year': 1980, 'container_name': 'Solar Phys', 'title': None, 'locator': '229'}
{'index': 107, 'target_release_id': None, 'extra': {'authors': ['JL Leroy'], 'unstructured': 'Leroy JL (1977) On the intensity of magnetic field in quiescent prominences. Astron Astrophys 60:79–84', 'volume': '60'}, 'key': '16_CR108', 'year': 1977, 'container_name': 'Astron Astrophys', 'title': None, 'locator': '79'}
{'index': 108, 'target_release_id': None, 'extra': {'authors': ['JL Leroy'], 'unstructured': 'Leroy JL (1978) On the orientation of magnetic fields in quiescent prominences. Astron Astrophys 64:247–252', 'volume': '64'}, 'key': '16_CR109', 'year': 1978, 'container_name': 'Astron Astrophys', 'title': None, 'locator': '247'}
{'index': 109, 'target_release_id': None, 'extra': {'authors': ['JL Leroy'], 'unstructured': 'Leroy JL (1988) The fine structure of prominences magnetic field: can we provide useful observational constraints? In: Altrock RC (ed) Solar and stellar coronal structure and dynamics. National Solar Observatory, New Mexico, pp 422–443', 'volume-title': 'Solar and stellar coronal structure and dynamics'}, 'key': '16_CR110', 'year': 1988, 'container_name': 'Solar and stellar coronal structure and dynamics', 'title': None, 'locator': '422'}
{'index': 110, 'target_release_id': None, 'extra': {'authors': ['JL Leroy'], 'doi': '10.1007/978-94-009-3077-3_4', 'unstructured': 'Leroy JL (1989) Observation of prominence magnetic fields. In: Priest ER (ed) Dynamics and structure of quiescent solar prominences. Astrophysics and space science library, vol 150. Kluwer Academic, Dordrecht, pp 77–113. https://doi.org/10.1007/978-94-009-3077-3_4', 'volume-title': 'Dynamics and structure of quiescent solar prominences. Astrophysics and space science library'}, 'key': '16_CR111', 'year': 1989, 'container_name': 'Dynamics and structure of quiescent solar prominences. Astrophysics and space science library', 'title': None, 'locator': '77'}
{'index': 111, 'target_release_id': None, 'extra': {'authors': ['JL Leroy'], 'unstructured': 'Leroy JL, Bommier V, Sahal-Brechot S (1984) New data on the magnetic structure of quiescent prominences. Astron Astrophys 131:33', 'volume': '131'}, 'key': '16_CR112', 'year': 1984, 'container_name': 'Astron Astrophys', 'title': None, 'locator': '33'}
{'index': 112, 'target_release_id': None, 'extra': {'authors': ['PJ Levens'], 'doi': '10.3847/0004-637x/818/1/31', 'unstructured': 'Levens PJ, Schmieder B, Labrosse N, López Ariste A (2016) Structure of prominence legs: plasma and magnetic field. Astrophys J 818:31. https://doi.org/10.3847/0004-637X/818/1/31. arXiv:1512.04727', 'volume': '818'}, 'key': '16_CR113', 'year': 2016, 'container_name': 'Astrophys J', 'title': None, 'locator': '31'}
{'index': 113, 'target_release_id': None, 'extra': {'authors': ['X Li'], 'doi': '10.1088/2041-8205/752/2/l22', 'unstructured': 'Li X, Morgan H, Leonard D, Jeska L (2012) A solar tornado observed by AIA/SDO: rotational flow and evolution of magnetic helicity in a prominence and cavity. Astrophys J Lett 752:L22. https://doi.org/10.1088/2041-8205/752/2/L22', 'volume': '752'}, 'key': '16_CR114', 'year': 2012, 'container_name': 'Astrophys J Lett', 'title': None, 'locator': 'L22'}
{'index': 114, 'target_release_id': None, 'extra': {'authors': ['J Linker'], 'doi': '10.1063/1.1563668', 'unstructured': 'Linker J, Mikić Z, Lionello R, Riley P, Amari T, Odstrcil D (2003) Flux cancellation and coronal mass ejections. Phys Plasmas 10:1971–1978. https://doi.org/10.1063/1.1563668', 'volume': '10'}, 'key': '16_CR115', 'year': 2003, 'container_name': 'Phys Plasmas', 'title': None, 'locator': '1971'}
{'index': 115, 'target_release_id': None, 'extra': {'authors': ['R Lionello'], 'doi': '10.1086/344222', 'unstructured': 'Lionello R, Mikić Z, Linker JA, Amari T (2002) Magnetic field topology in prominences. Astrophys J 581:718–725. https://doi.org/10.1086/344222', 'volume': '581'}, 'key': '16_CR116', 'year': 2002, 'container_name': 'Astrophys J', 'title': None, 'locator': '718'}
{'index': 116, 'target_release_id': None, 'extra': {'authors': ['BW Lites'], 'doi': '10.1023/a:1004936204808', 'unstructured': 'Lites BW, Low BC (1997) Flux emergence and prominences: a new scenario for 3-dimensional field geometry based on observations with the advanced stokes polarimeter. Solar Phys 174:91. https://doi.org/10.1023/A:1004936204808', 'volume': '174'}, 'key': '16_CR117', 'year': 1997, 'container_name': 'Solar Phys', 'title': None, 'locator': '91'}
{'index': 117, 'target_release_id': None, 'extra': {'authors': ['A López Ariste'], 'doi': '10.1007/978-3-319-10416-4_8', 'unstructured': 'López Ariste A (2015) Magnetometry of prominences. In: Engvold O, Vial JC (eds) Solar prominences, vol 415. Springer, Cham, pp 179–203. https://doi.org/10.1007/978-3-319-10416-4_8', 'volume-title': 'Solar prominences'}, 'key': '16_CR118', 'year': 2015, 'container_name': 'Solar prominences', 'title': None, 'locator': '179'}
{'index': 118, 'target_release_id': None, 'extra': {'authors': ['BC Low'], 'doi': '10.1007/bf00153465', 'unstructured': 'Low BC (1982) The vertical filamentary structures of quiescent prominences. Solar Phys 75:119–131. https://doi.org/10.1007/BF00153465', 'volume': '75'}, 'key': '16_CR119', 'year': 1982, 'container_name': 'Solar Phys', 'title': None, 'locator': '119'}
{'index': 119, 'target_release_id': None, 'extra': {'authors': ['BC Low'], 'doi': '10.1086/172710', 'unstructured': 'Low BC (1993) Force-free magnetic fields with singular current-density surfaces. Astrophys J 409:798–808. https://doi.org/10.1086/172710', 'volume': '409'}, 'key': '16_CR120', 'year': 1993, 'container_name': 'Astrophys J', 'title': None, 'locator': '798'}
{'index': 120, 'target_release_id': None, 'extra': {'authors': ['BC Low'], 'doi': '10.1063/1.870671', 'unstructured': 'Low BC (1994) Magnetohydrodynamic processes in the solar corona: flares, coronal mass ejections, and magnetic helicity. Phys Plasmas 1:1684–1690. https://doi.org/10.1063/1.870671'}, 'key': '16_CR121', 'year': 1994, 'container_name': 'Phys Plasmas', 'title': None, 'locator': '1684'}
{'index': 121, 'target_release_id': None, 'extra': {'authors': ['BC Low'], 'doi': '10.1007/bf00146338', 'unstructured': 'Low BC (1996) Solar activity and the corona. Solar Phys 167:217. https://doi.org/10.1007/BF00146338', 'volume': '167'}, 'key': '16_CR122', 'year': 1996, 'container_name': 'Solar Phys', 'title': None, 'locator': '217'}
{'index': 122, 'target_release_id': None, 'extra': {'authors': ['BC Low'], 'doi': '10.1029/2000ja004015', 'unstructured': 'Low BC (2001) Coronal mass ejections, magnetic flux ropes, and solar magnetism. J Geophys Res 106:25141–25164. https://doi.org/10.1029/2000JA004015', 'volume': '106'}, 'key': '16_CR123', 'year': 2001, 'container_name': 'J Geophys Res', 'title': None, 'locator': '25141'}
{'index': 123, 'target_release_id': None, 'extra': {'authors': ['BC Low'], 'unstructured': 'Low BC (2018) Coronal magnetism as a universal phenomenon. In: Engvold O, Skumanich A, Vial JC (eds) The Sun: a guide to stellar physics. Elsevier, Amsterdam', 'volume-title': 'The Sun: a guide to stellar physics'}, 'key': '16_CR124', 'year': 2018, 'container_name': 'The Sun: a guide to stellar physics', 'title': None, 'locator': None}
{'index': 124, 'target_release_id': None, 'extra': {'authors': ['BC Low'], 'doi': '10.1086/374614', 'unstructured': 'Low BC, Berger M (2003) A morphological study of helical coronal magnetic structures. Astrophys J 589:644. https://doi.org/10.1086/374614', 'volume': '589'}, 'key': '16_CR125', 'year': 2003, 'container_name': 'Astrophys J', 'title': None, 'locator': '644'}
{'index': 125, 'target_release_id': None, 'extra': {'authors': ['BC Low'], 'doi': '10.1063/1.4882676', 'unstructured': 'Low BC, Egan AK (2014) Steady fall of isothermal, resistive-viscous, compressible fluid across magnetic field. Phys Plasmas 21(6):062105. https://doi.org/10.1063/1.4882676', 'volume': '21'}, 'key': '16_CR126', 'year': 2014, 'container_name': 'Phys Plasmas', 'title': None, 'locator': '062105'}
{'index': 126, 'target_release_id': None, 'extra': {'authors': ['BC Low'], 'doi': '10.1086/175572', 'unstructured': 'Low BC, Hundhausen JR (1995) Magnetostatic structures of the solar corona. II. The magnetic topology of quiescent prominences. Astrophys J 443:818. https://doi.org/10.1086/175572', 'volume': '443'}, 'key': '16_CR127', 'year': 1995, 'container_name': 'Astrophys J', 'title': None, 'locator': '818'}
{'index': 127, 'target_release_id': None, 'extra': {'authors': ['BC Low'], 'doi': '10.1086/430046', 'unstructured': 'Low BC, Petrie GJD (2005) The internal structures and dynamics of solar quiescent prominences. Astrophys J 626:551. https://doi.org/10.1086/430046', 'volume': '626'}, 'key': '16_CR128', 'year': 2005, 'container_name': 'Astrophys J', 'title': None, 'locator': '551'}
{'index': 128, 'target_release_id': None, 'extra': {'authors': ['BC Low'], 'doi': '10.1086/421256', 'unstructured': 'Low BC, Zhang M (2004) Magnetostatic structures of the solar corona. III. Normal and inverse quiescent prominences. Astrophys J 609:1098–1111. https://doi.org/10.1086/421256', 'volume': '609'}, 'key': '16_CR129', 'year': 2004, 'container_name': 'Astrophys J', 'title': None, 'locator': '1098'}
{'index': 129, 'target_release_id': None, 'extra': {'authors': ['BC Low'], 'doi': '10.1088/0004-637x/757/1/21', 'unstructured': 'Low BC, Liu W, Berger T, Casini R (2012) The hydromagnetic interior of a solar quiescent prominence. II. Magnetic discontinuities and cross-field mass transport. Astrophys J 757:21. https://doi.org/10.1088/0004-637X/757/1/21', 'volume': '757'}, 'key': '16_CR130', 'year': 2012, 'container_name': 'Astrophys J', 'title': None, 'locator': '21'}
{'index': 130, 'target_release_id': None, 'extra': {'authors': ['N Lugaz'], 'doi': '10.1007/978-3-319-10416-4_17', 'unstructured': 'Lugaz N (2015) Eruptive prominences and their impact on the earth and our life. In: Engvold O, Vial JC (eds) Solar prominences, vol 415. Springer, Cham, pp 433–453. https://doi.org/10.1007/978-3-319-10416-4_17', 'volume-title': 'Solar prominences'}, 'key': '16_CR131', 'year': 2015, 'container_name': 'Solar prominences', 'title': None, 'locator': '433'}
{'index': 131, 'target_release_id': None, 'extra': {'authors': ['M Luna'], 'doi': '10.1088/0004-637x/746/1/30', 'unstructured': 'Luna M, Karpen JT, DeVore CR (2012) Formation and evolution of a multi-threaded solar prominence. Astrophys J 746:30. https://doi.org/10.1088/0004-637X/746/1/30. arXiv:1201.3559', 'volume': '746'}, 'key': '16_CR132', 'year': 2012, 'container_name': 'Astrophys J', 'title': None, 'locator': '30'}
{'index': 132, 'target_release_id': None, 'extra': {'authors': ['M Luna'], 'doi': '10.3847/1538-4365/aabde7', 'unstructured': 'Luna M, Karpen J, Ballester JL, Muglach K, Terradas J, Kucera T, Gilbert H (2018) GONG catalog of solar filament oscillations near solar maximum. Astrophys J Suppl Ser 236:35. https://doi.org/10.3847/1538-4365/aabde7. arXiv:1804.03743', 'volume': '236'}, 'key': '16_CR133', 'year': 2018, 'container_name': 'Astrophys J Suppl Ser', 'title': None, 'locator': '35'}
{'index': 133, 'target_release_id': None, 'extra': {'authors': ['DH Mackay'], 'doi': '10.1007/978-3-319-10416-4_14', 'unstructured': 'Mackay DH (2015) Formation and large-scale patterns of filament channels and filaments. In: Engvold O, Vial JC (eds) Solar prominences. Astrophysics and space science library, vol 415. Springer, Cham, pp 355–380. https://doi.org/10.1007/978-3-319-10416-4_14', 'volume-title': 'Solar prominences. Astrophysics and space science library'}, 'key': '16_CR134', 'year': 2015, 'container_name': 'Solar prominences. Astrophysics and space science library', 'title': None, 'locator': '355'}
{'index': 134, 'target_release_id': None, 'extra': {'authors': ['DH Mackay'], 'doi': '10.1007/s11207-009-9468-9', 'unstructured': 'Mackay DH, van Ballegooijen AA (2009) A non-linear force-free field model for the evolving magnetic structure of solar filaments. Solar Phys 260:321–346. https://doi.org/10.1007/s11207-009-9468-9', 'volume': '260'}, 'key': '16_CR135', 'year': 2009, 'container_name': 'Solar Phys', 'title': None, 'locator': '321'}
{'index': 135, 'target_release_id': None, 'extra': {'authors': ['DH Mackay'], 'doi': '10.1007/s11207-008-9127-6', 'unstructured': 'Mackay DH, Gaizauskas V, Yeates AR (2008) Where do solar filaments form? Consequences for theoretical models. Solar Phys 248:51–65. https://doi.org/10.1007/s11207-008-9127-6', 'volume': '248'}, 'key': '16_CR136', 'year': 2008, 'container_name': 'Solar Phys', 'title': None, 'locator': '51'}
{'index': 136, 'target_release_id': None, 'extra': {'authors': ['DH Mackay'], 'doi': '10.1007/s11214-010-9628-0', 'unstructured': 'Mackay DH, Karpen JT, Ballester JL, Schmieder B, Aulanier G (2010) Physics of solar prominences: II—magnetic structure and dynamics. Space Sci Rev 151:333–399. https://doi.org/10.1007/s11214-010-9628-0. arXiv:1001.1635', 'volume': '151'}, 'key': '16_CR137', 'year': 2010, 'container_name': 'Space Sci Rev', 'title': None, 'locator': '333'}
{'index': 137, 'target_release_id': None, 'extra': {'authors': ['A Malanushenko'], 'doi': '10.1088/0004-637x/783/2/102', 'unstructured': 'Malanushenko A, Schrijver CJ, DeRosa ML, Wheatland MS (2014) Using coronal loops to reconstruct the magnetic field of an active region before and after a major flare. Astrophys J 783:102. https://doi.org/10.1088/0004-637X/783/2/102. arXiv:1312.5389', 'volume': '783'}, 'key': '16_CR138', 'year': 2014, 'container_name': 'Astrophys J', 'title': None, 'locator': '102'}
{'index': 138, 'target_release_id': None, 'extra': {'authors': ['JM Malherbe'], 'unstructured': 'Malherbe JM, Priest ER (1983) Current sheet models for solar prominences. I. Magnetohydrostatics of support and evolution through quasi-static models. Astron Astrophys 123:80–88', 'volume': '123'}, 'key': '16_CR139', 'year': 1983, 'container_name': 'Astron Astrophys', 'title': None, 'locator': '80'}
{'index': 139, 'target_release_id': None, 'extra': {'authors': ['D Maričić'], 'doi': '10.1007/s11207-009-9421-y', 'unstructured': 'Maričić D, Vršnak B, Roša D (2009) Relative kinematics of the leading edge and the prominence in coronal mass ejections. Solar Phys 260:177. https://doi.org/10.1007/s11207-009-9421-y', 'volume': '260'}, 'key': '16_CR140', 'year': 2009, 'container_name': 'Solar Phys', 'title': None, 'locator': '177'}
{'index': 140, 'target_release_id': None, 'extra': {'authors': ['C Marqué'], 'doi': '10.1086/381085', 'unstructured': 'Marqué C (2004) Radiometric observations of quiescent filament cavities. Astrophys J 602:1037. https://doi.org/10.1086/381085', 'volume': '602'}, 'key': '16_CR141', 'year': 2004, 'container_name': 'Astrophys J', 'title': None, 'locator': '1037'}
{'index': 141, 'target_release_id': None, 'extra': {'authors': ['SF Martin'], 'doi': '10.1023/a:1005026814076', 'unstructured': 'Martin SF (1998a) Conditions for the formation and maintenance of filaments (invited review). Solar Phys 182:107–137. https://doi.org/10.1023/A:1005026814076', 'volume': '182'}, 'key': '16_CR142', 'year': 1998, 'container_name': 'Solar Phys', 'title': None, 'locator': '107'}
{'index': 142, 'target_release_id': None, 'extra': {'authors': ['SF Martin'], 'unstructured': 'Martin SF (1998b) Filament chirality: a link between fine-scale and global patterns (review). In: Webb DF, Schmieder B, Rust DM (eds) IAU Colloquium 167: New perspectives on solar prominences. ASP conference series, vol 150. Astronomical Society of the Pacific, San Francisco, p 419', 'volume-title': 'IAU Colloquium 167: New perspectives on solar prominences. ASP conference series'}, 'key': '16_CR143', 'year': 1998, 'container_name': 'IAU Colloquium 167: New perspectives on solar prominences. ASP conference series', 'title': None, 'locator': '419'}
{'index': 143, 'target_release_id': None, 'extra': {'authors': ['SF Martin'], 'doi': '10.1007/978-3-319-10416-4_9', 'unstructured': 'Martin SF (2015) The magnetic field structure of prominences from direct and indirect observations. In: Engvold O, Vial JC (eds) Solar prominences, vol 415. Springer, Cham, pp 205–235. https://doi.org/10.1007/978-3-319-10416-4_9', 'volume-title': 'Solar prominences'}, 'key': '16_CR144', 'year': 2015, 'container_name': 'Solar prominences', 'title': None, 'locator': '205'}
{'index': 144, 'target_release_id': None, 'extra': {'authors': ['SF Martin'], 'doi': '10.1007/978-94-009-0315-9_112', 'unstructured': 'Martin SF, McAllister AH (1996) The skew of X-ray coronal loops overlying H$$\\alpha $$α filaments. In: Uchida Y, Kosugi T, Hudson HS (eds) IAU Colloquium 153: Magnetodynamic phenomena in the solar atmosphere. Prototypes of stellar magnetic activity. Springer, Dordrecht, pp 497–498. https://doi.org/10.1007/978-94-009-0315-9_112', 'volume-title': 'IAU Colloquium 153: Magnetodynamic phenomena in the solar atmosphere. Prototypes of stellar magnetic activity'}, 'key': '16_CR145', 'year': 1996, 'container_name': 'IAU Colloquium 153: Magnetodynamic phenomena in the solar atmosphere. Prototypes of stellar magnetic activity', 'title': None, 'locator': '497'}
{'index': 145, 'target_release_id': None, 'extra': {'authors': ['MJ Martínez González'], 'doi': '10.3847/0004-637x/825/2/119', 'unstructured': 'Martínez González MJ, Asensio Ramos A, Arregui I, Collados M, Beck C, de la Cruz Rodríguez J (2016) On the magnetism and dynamics of prominence legs hosting tornadoes. Astrophys J 825:119. https://doi.org/10.3847/0004-637X/825/2/119. arXiv:1605.01183', 'volume': '825'}, 'key': '16_CR146', 'year': 2016, 'container_name': 'Astrophys J', 'title': None, 'locator': '119'}
{'index': 146, 'target_release_id': None, 'extra': {'authors': ['PS McIntosh'], 'doi': '10.1007/bf00221485', 'unstructured': 'McIntosh PS, Krieger AS, Nolte JT, Vaiana G (1976) Association of X-ray arches with chromospheric neutral lines. Solar Phys 49:57–77. https://doi.org/10.1007/BF00221485', 'volume': '49'}, 'key': '16_CR147', 'year': 1976, 'container_name': 'Solar Phys', 'title': None, 'locator': '57'}
{'index': 147, 'target_release_id': None, 'extra': {'authors': ['C Mercier'], 'unstructured': 'Mercier C, Heyvaerts J (1977) The downward motions in quiescent prominences. Astron Astrophys 61:685–693', 'volume': '61'}, 'key': '16_CR148', 'year': 1977, 'container_name': 'Astron Astrophys', 'title': None, 'locator': '685'}
{'index': 148, 'target_release_id': None, 'extra': {'authors': ['RL Moore'], 'doi': '10.1086/320559', 'unstructured': 'Moore RL, Sterling AC, Hudson HS, Lemen JR (2001) Onset of the magnetic explosion in solar flares and coronal mass ejections. Astrophys J 552:833. https://doi.org/10.1086/320559', 'volume': '552'}, 'key': '16_CR149', 'year': 2001, 'container_name': 'Astrophys J', 'title': None, 'locator': '833'}
{'index': 149, 'target_release_id': None, 'extra': {'authors': ['A Nindos'], 'doi': '10.1088/0004-637x/808/2/117', 'unstructured': 'Nindos A, Patsourakos S, Vourlidas A, Tagikas C (2015) How common are hot magnetic flux ropes in the low solar corona? A statistical study of EUV observations. Astrophys J 808:117. https://doi.org/10.1088/0004-637X/808/2/117. arXiv:1507.03766', 'volume': '808'}, 'key': '16_CR150', 'year': 2015, 'container_name': 'Astrophys J', 'title': None, 'locator': '117'}
{'index': 150, 'target_release_id': None, 'extra': {'authors': ['TJ Okamoto'], 'doi': '10.3847/0004-637x/831/2/126', 'unstructured': 'Okamoto TJ, Liu W, Tsuneta S (2016) Helical motions of fine-structure prominence threads observed by Hinode and IRIS. Astrophys J 831:126. https://doi.org/10.3847/0004-637X/831/2/126. arXiv:1608.00123', 'volume': '831'}, 'key': '16_CR151', 'year': 2016, 'container_name': 'Astrophys J', 'title': None, 'locator': '126'}
{'index': 151, 'target_release_id': None, 'extra': {'authors': ['D Orozco Suárez'], 'doi': '10.1088/2041-8205/761/2/l25', 'unstructured': 'Orozco Suárez D, Asensio Ramos A, Trujillo Bueno J (2012) Evidence for rotational motions in the feet of a quiescent solar prominence. Astrophys J Lett 761:L25. https://doi.org/10.1088/2041-8205/761/2/L25. arXiv:1211.6980', 'volume': '761'}, 'key': '16_CR152', 'year': 2012, 'container_name': 'Astrophys J Lett', 'title': None, 'locator': 'L25'}
{'index': 152, 'target_release_id': None, 'extra': {'authors': ['O Panasenco'], 'doi': '10.1007/s11207-013-0337-1', 'unstructured': 'Panasenco O, Martin SF, Velli M (2014) Apparent solar tornado-like prominences. Solar Phys 289:603–622. https://doi.org/10.1007/s11207-013-0337-1. arXiv:1307.2303', 'volume': '289'}, 'key': '16_CR153', 'year': 2014, 'container_name': 'Solar Phys', 'title': None, 'locator': '603'}
{'index': 153, 'target_release_id': None, 'extra': {'authors': ['NK Panesar'], 'doi': '10.1051/0004-6361/201220503', 'unstructured': 'Panesar NK, Innes DE, Tiwari SK, Low BC (2013) A solar tornado triggered by flares? Astron Astrophys 549:A105. https://doi.org/10.1051/0004-6361/201220503. arXiv:1211.6569', 'volume': '549'}, 'key': '16_CR154', 'year': 2013, 'container_name': 'Astron Astrophys', 'title': None, 'locator': 'A105'}
{'index': 154, 'target_release_id': None, 'extra': {'authors': ['S Parenti'], 'doi': '10.12942/lrsp-2014-1', 'unstructured': 'Parenti S (2014) Solar prominences: observations. Living Rev Sol Phys 11:1. https://doi.org/10.12942/lrsp-2014-1', 'volume': '11'}, 'key': '16_CR155', 'year': 2014, 'container_name': 'Living Rev Sol Phys', 'title': None, 'locator': None}
{'index': 155, 'target_release_id': None, 'extra': {'authors': ['S Parenti'], 'doi': '10.1007/978-3-319-10416-4_3', 'unstructured': 'Parenti S (2015) Spectral diagnostics of cool prominence and PCTR optically thin plasmas. In: Engvold O, Vial JC (eds) Solar prominences. Astrophysics and space science library, vol 415. Springer, Cham, pp 61–77. https://doi.org/10.1007/978-3-319-10416-4_3', 'volume-title': 'Solar prominences. Astrophysics and space science library'}, 'key': '16_CR156', 'year': 2015, 'container_name': 'Solar prominences. Astrophysics and space science library', 'title': None, 'locator': '61'}
{'index': 156, 'target_release_id': None, 'extra': {'authors': ['S Patsourakos'], 'doi': '10.1051/0004-6361/200913599', 'unstructured': 'Patsourakos S, Vourlidas A, Kliem B (2010a) Toward understanding the early stages of an impulsively accelerated coronal mass ejection. SECCHI observations. Astron Astrophys 522:A100. https://doi.org/10.1051/0004-6361/200913599. arXiv:1008.1171', 'volume': '522'}, 'key': '16_CR157', 'year': 2010, 'container_name': 'Astron Astrophys', 'title': None, 'locator': 'A100'}
{'index': 157, 'target_release_id': None, 'extra': {'authors': ['S Patsourakos'], 'doi': '10.1088/2041-8205/724/2/l188', 'unstructured': 'Patsourakos S, Vourlidas A, Stenborg G (2010b) The genesis of an impulsive coronal mass ejection observed at ultra-high cadence by AIA on SDO. Astrophys J Lett 724:L188–L193. https://doi.org/10.1088/2041-8205/724/2/L188. arXiv:1010.5234', 'volume': '724'}, 'key': '16_CR158', 'year': 2010, 'container_name': 'Astrophys J Lett', 'title': None, 'locator': 'L188'}
{'index': 158, 'target_release_id': None, 'extra': {'authors': ['S Patsourakos'], 'doi': '10.1088/0004-637x/764/2/125', 'unstructured': 'Patsourakos S, Vourlidas A, Stenborg G (2013) Direct evidence for a fast coronal mass ejection driven by the prior formation and subsequent destabilization of a magnetic flux rope. Astrophys J 764:125. https://doi.org/10.1088/0004-637X/764/2/125. arXiv:1211.7211', 'volume': '764'}, 'key': '16_CR159', 'year': 2013, 'container_name': 'Astrophys J', 'title': None, 'locator': '125'}
{'index': 159, 'target_release_id': None, 'extra': {'authors': ['GJD Petrie'], 'doi': '10.1086/431149', 'unstructured': 'Petrie GJD, Low BC (2005) The dynamical consequences of spontaneous current sheets in quiescent prominences. Astrophys J Suppl Ser 159:288. https://doi.org/10.1086/431149', 'volume': '159'}, 'key': '16_CR160', 'year': 2005, 'container_name': 'Astrophys J Suppl Ser', 'title': None, 'locator': '288'}
{'index': 160, 'target_release_id': None, 'extra': {'authors': ['E Pettit'], 'doi': '10.1086/143396', 'unstructured': 'Pettit E (1932) Characteristic features of solar prominences. Astrophys J 76:9. https://doi.org/10.1086/143396', 'volume': '76'}, 'key': '16_CR161', 'year': 1932, 'container_name': 'Astrophys J', 'title': None, 'locator': None}
{'index': 161, 'target_release_id': None, 'extra': {'authors': ['AA Pevtsov'], 'doi': '10.1023/a:1015589802234', 'unstructured': 'Pevtsov AA (2002) Active-region filaments and X-ray sigmoids. Solar Phys 207:111–123. https://doi.org/10.1023/A:1015589802234', 'volume': '207'}, 'key': '16_CR162', 'year': 2002, 'container_name': 'Solar Phys', 'title': None, 'locator': '111'}
{'index': 162, 'target_release_id': None, 'extra': {'authors': ['AA Pevtsov'], 'doi': '10.1086/304065', 'unstructured': 'Pevtsov AA, Canfield RC, McClymont AN (1997) On the subphotospheric origin of coronal electric currents. Astrophys J 481:973. https://doi.org/10.1086/304065', 'volume': '481'}, 'key': '16_CR163', 'year': 1997, 'container_name': 'Astrophys J', 'title': None, 'locator': '973'}
{'index': 163, 'target_release_id': None, 'extra': {'authors': ['GW Pneuman'], 'doi': '10.1007/bf00196189', 'unstructured': 'Pneuman GW (1983) The formation of solar prominences by magnetic reconnection and condensation. Solar Phys 88:219. https://doi.org/10.1007/BF00196189', 'volume': '88'}, 'key': '16_CR164', 'year': 1983, 'container_name': 'Solar Phys', 'title': None, 'locator': '219'}
{'index': 164, 'target_release_id': None, 'extra': {'authors': ['ER Priest'], 'doi': '10.1029/95ja02740', 'unstructured': 'Priest ER, Démoulin P (1995) Three-dimensional magnetic reconnection without null points. 1. Basic theory of magnetic flipping. J Geophys Res 100:23,443–23,464. https://doi.org/10.1029/95JA02740', 'volume': '100'}, 'key': '16_CR165', 'year': 1995, 'container_name': 'J Geophys Res', 'title': None, 'locator': '23,443'}
{'index': 165, 'target_release_id': None, 'extra': {'authors': ['ER Priest'], 'doi': '10.1086/167868', 'unstructured': 'Priest ER, Hood AW, Anzer U (1989) A twisted flux-tube model for solar prominences. I. General properties. Astrophys J 344:1010–1025. https://doi.org/10.1086/167868', 'volume': '344'}, 'key': '16_CR166', 'year': 1989, 'container_name': 'Astrophys J', 'title': None, 'locator': '1010'}
{'index': 166, 'target_release_id': None, 'extra': {'authors': ['LA Rachmeler'], 'doi': '10.1007/s11207-013-0325-5', 'unstructured': 'Rachmeler LA, Gibson SE, Dove JB, DeVore CR, Fan Y (2013) Polarimetric properties of flux ropes and sheared arcades in coronal prominence cavities. Solar Phys 288:617–636. https://doi.org/10.1007/s11207-013-0325-5. arXiv:1304.7594', 'volume': '288'}, 'key': '16_CR167', 'year': 2013, 'container_name': 'Solar Phys', 'title': None, 'locator': '617'}
{'index': 167, 'target_release_id': None, 'extra': {'authors': ['KK Reeves'], 'doi': '10.1088/0004-637x/746/2/146', 'unstructured': 'Reeves KK, Gibson SE, Kucera TA, Hudson HS (2012) Thermal properties of coronal cavities observed with the X-ray telescope on Hinode. Astrophys J 746:146. https://doi.org/10.1088/0004-637X/746/2/146', 'volume': '746'}, 'key': '16_CR168', 'year': 2012, 'container_name': 'Astrophys J', 'title': None, 'locator': '146'}
{'index': 168, 'target_release_id': None, 'extra': {'authors': ['S Régnier'], 'doi': '10.1051/0004-6361/201117381', 'unstructured': 'Régnier S, Walsh RW, Alexander CE (2011) A new look at a polar crown cavity as observed by SDO/AIA. Structure and dynamics. Astron Astrophys 533:L1. https://doi.org/10.1051/0004-6361/201117381. arXiv:1107.3451', 'volume': '533'}, 'key': '16_CR169', 'year': 2011, 'container_name': 'Astron Astrophys', 'title': None, 'locator': 'L1'}
{'index': 169, 'target_release_id': None, 'extra': {'authors': ['C Ridgway'], 'doi': '10.1086/169631', 'unstructured': 'Ridgway C, Priest ER, Amari T (1991) A twisted flux tube model for solar prominences. III. Magnetic support. Astrophys J 367:321–332. https://doi.org/10.1086/169631', 'volume': '367'}, 'key': '16_CR170', 'year': 1991, 'container_name': 'Astrophys J', 'title': None, 'locator': '321'}
{'index': 170, 'target_release_id': None, 'extra': {'authors': ['DM Rust'], 'doi': '10.1086/149333', 'unstructured': 'Rust DM (1967) Magnetic fields in quiescent solar prominences. I. Observations. Astrophys J 150:313. https://doi.org/10.1086/149333', 'volume': '150'}, 'key': '16_CR171', 'year': 1967, 'container_name': 'Astrophys J', 'title': None, 'locator': '313'}
{'index': 171, 'target_release_id': None, 'extra': {'authors': ['DM Rust'], 'doi': '10.1007/bf00670732', 'unstructured': 'Rust DM, Kumar A (1994) Helical magnetic field in filaments. Solar Phys 155:69. https://doi.org/10.1007/BF00670732', 'volume': '155'}, 'key': '16_CR172', 'year': 1994, 'container_name': 'Solar Phys', 'title': None, 'locator': '69'}
{'index': 172, 'target_release_id': None, 'extra': {'authors': ['DM Rust'], 'doi': '10.1086/310118', 'unstructured': 'Rust DM, Kumar A (1996) Evidence for helically kinked magnetic flux ropes in solar eruptions. Astrophys J Lett 464:L199. https://doi.org/10.1086/310118', 'volume': '464'}, 'key': '16_CR173', 'year': 1996, 'container_name': 'Astrophys J Lett', 'title': None, 'locator': 'L199'}
{'index': 173, 'target_release_id': None, 'extra': {'authors': ['M Ryutova'], 'doi': '10.1007/s11207-010-9638-9', 'unstructured': 'Ryutova M, Berger T, Frank Z, Tarbell T, Title A (2010) Observation of plasma instabilities in quiescent prominences. Solar Phys 267:75–94. https://doi.org/10.1007/s11207-010-9638-9', 'volume': '267'}, 'key': '16_CR174', 'year': 2010, 'container_name': 'Solar Phys', 'title': None, 'locator': '75'}
{'index': 174, 'target_release_id': None, 'extra': {'authors': ['K Saito'], 'doi': '10.1007/bf00147121', 'unstructured': 'Saito K, Hyder CL (1968) A concentric ellipse multiple-arch system in the solar corona. Solar Phys 5:61. https://doi.org/10.1007/BF00147121'}, 'key': '16_CR175', 'year': 1968, 'container_name': 'Solar Phys', 'title': None, 'locator': '61'}
{'index': 175, 'target_release_id': None, 'extra': {'authors': ['K Saito'], 'doi': '10.1007/bf00156076', 'unstructured': 'Saito K, Tandberg-Hanssen E (1973) The arch systems, cavities, and prominences in the helmet streamer observed at the solar eclipse, November 12, 1966. Solar Phys 31:105. https://doi.org/10.1007/BF00156076', 'volume': '31'}, 'key': '16_CR176', 'year': 1973, 'container_name': 'Solar Phys', 'title': None, 'locator': '105'}
{'index': 176, 'target_release_id': None, 'extra': {'authors': ['A Savcheva'], 'doi': '10.1088/0004-637x/703/2/1766', 'unstructured': 'Savcheva A, van Ballegooijen A (2009) Nonlinear force-free modeling of a long-lasting coronal sigmoid. Astrophys J 703:1766. https://doi.org/10.1088/0004-637X/703/2/1766', 'volume': '703'}, 'key': '16_CR177', 'year': 2009, 'container_name': 'Astrophys J', 'title': None, 'locator': '1766'}
{'index': 177, 'target_release_id': None, 'extra': {'authors': ['A Savcheva'], 'doi': '10.1088/0004-637x/759/2/105', 'unstructured': 'Savcheva A, Green LM, van Ballegooijen AA, DeLuca EE (2012a) Photospheric flux cancellation and the build-up of sigmoidal flux ropes on the Sun. Astrophys J 759:105. https://doi.org/10.1088/0004-637X/759/2/105', 'volume': '759'}, 'key': '16_CR178', 'year': 2012, 'container_name': 'Astrophys J', 'title': None, 'locator': '105'}
{'index': 178, 'target_release_id': None, 'extra': {'authors': ['A Savcheva'], 'doi': '10.1088/0004-637x/750/1/15', 'unstructured': 'Savcheva A, Pariat E, van Ballegooijen A, Aulanier G, DeLuca E (2012b) Sigmoidal active region on the sun: comparison of a magnetohydrodynamical simulation and a nonlinear force-free field model. Astrophys J 750:15. https://doi.org/10.1088/0004-637X/750/1/15', 'volume': '750'}, 'key': '16_CR179', 'year': 2012, 'container_name': 'Astrophys J', 'title': None, 'locator': '15'}
{'index': 179, 'target_release_id': None, 'extra': {'authors': ['A Savcheva'], 'doi': '10.1088/0004-637x/744/1/78', 'unstructured': 'Savcheva A, Van Ballegooijen A, DeLuca E (2012c) Field topology analysis of a long-lasting coronal sigmoid. Astrophys J 744:78. https://doi.org/10.1088/0004-637X/744/1/78', 'volume': '744'}, 'key': '16_CR180', 'year': 2012, 'container_name': 'Astrophys J', 'title': None, 'locator': '78'}
{'index': 180, 'target_release_id': None, 'extra': {'doi': '10.1017/s0252921100065301', 'unstructured': 'Schmahl EJ (1979) The prominence-corona interface—a review. In: Jensen E, Maltby P, Orrall FQ (eds) IAU Colloquium 44: Physics of solar prominences, pp 102–120'}, 'key': '16_CR181', 'year': None, 'container_name': None, 'title': None, 'locator': None}
{'index': 181, 'target_release_id': None, 'extra': {'authors': ['B Schmieder'], 'unstructured': 'Schmieder B, Raadu MA, Wiik JE (1991) Fine structure of solar filaments. II. Dynamics of threads and footpoints. Astron Astrophys 252:353–365', 'volume': '252'}, 'key': '16_CR182', 'year': 1991, 'container_name': 'Astron Astrophys', 'title': None, 'locator': '353'}
{'index': 182, 'target_release_id': None, 'extra': {'authors': ['B Schmieder'], 'doi': '10.1051/0004-6361/200913477', 'unstructured': 'Schmieder B, Chandra R, Berlicki A, Mein P (2010) Velocity vectors of a quiescent prominence observed by Hinode/SOT and the MSDP (Meudon). Astron Astrophys 514:A68. https://doi.org/10.1051/0004-6361/200913477. arXiv:0911.5091', 'volume': '514'}, 'key': '16_CR183', 'year': 2010, 'container_name': 'Astron Astrophys', 'title': None, 'locator': 'A68'}
{'index': 183, 'target_release_id': None, 'extra': {'authors': ['B Schmieder'], 'doi': '10.1051/0004-6361/201628771', 'unstructured': 'Schmieder B, Mein P, Mein N, Levens PJ, Labrosse N, Ofman L (2017) H$$\\alpha $$α Doppler shifts in a tornado in the solar corona. Astron Astrophys 597:A109. https://doi.org/10.1051/0004-6361/201628771. arXiv:1612.02232', 'volume': '597'}, 'key': '16_CR184', 'year': 2017, 'container_name': 'Astron Astrophys', 'title': None, 'locator': 'A109'}
{'index': 184, 'target_release_id': None, 'extra': {'authors': ['DJ Schmit'], 'doi': '10.1088/0004-637x/733/1/1', 'unstructured': 'Schmit DJ, Gibson SE (2011) Forward modeling cavity density: a multi-instrument diagnostic. Astrophys J 733:1. https://doi.org/10.1088/0004-637X/733/1/1', 'volume': '733'}, 'key': '16_CR185', 'year': 2011, 'container_name': 'Astrophys J', 'title': None, 'locator': None}
{'index': 185, 'target_release_id': None, 'extra': {'authors': ['DJ Schmit'], 'doi': '10.1088/0004-637x/770/1/35', 'unstructured': 'Schmit DJ, Gibson S (2013) Diagnosing the prominence-cavity connection. Astrophys J 770:35. https://doi.org/10.1088/0004-637X/770/1/35. arXiv:1304.7595', 'volume': '770'}, 'key': '16_CR186', 'year': 2013, 'container_name': 'Astrophys J', 'title': None, 'locator': '35'}
{'index': 186, 'target_release_id': None, 'extra': {'authors': ['DJ Schmit'], 'doi': '10.1017/s1743921313010880', 'unstructured': 'Schmit DJ, Gibson SE (2014) The formation of a cavity in a 3D flux rope. Proc Int Astron Union 8:147–150. https://doi.org/10.1017/S1743921313010880. arXiv:1311.2384'}, 'key': '16_CR187', 'year': 2014, 'container_name': 'Proc Int Astron Union', 'title': None, 'locator': '147'}
{'index': 187, 'target_release_id': None, 'extra': {'authors': ['DJ Schmit'], 'doi': '10.1088/0004-637x/700/2/l96', 'unstructured': 'Schmit DJ, Gibson SE, Tomczyk S, Reeves KK, Sterling AC, Brooks DH, Williams DR, Tripathi D (2009) Large-scale flows in prominence cavities. Astrophys J Lett 700:96. https://doi.org/10.1088/0004-637X/700/2/L96', 'volume': '700'}, 'key': '16_CR188', 'year': 2009, 'container_name': 'Astrophys J Lett', 'title': None, 'locator': '96'}
{'index': 188, 'target_release_id': None, 'extra': {'authors': ['DJ Schmit'], 'doi': '10.1088/0004-637x/779/2/156', 'unstructured': 'Schmit DJ, Gibson S, Luna M, Karpen J, Innes D (2013) Prominence mass supply and the cavity. Astrophys J 779:156. https://doi.org/10.1088/0004-637X/779/2/156. arXiv:1311.2382', 'volume': '779'}, 'key': '16_CR189', 'year': 2013, 'container_name': 'Astrophys J', 'title': None, 'locator': '156'}
{'index': 189, 'target_release_id': None, 'extra': {'authors': ['AO Schonfelder'], 'doi': '10.1007/bf00680619', 'unstructured': 'Schonfelder AO, Hood AW (1995) Current sheet model for inverse polarity prominences in twisted flux tubes. Solar Phys 157:223–249. https://doi.org/10.1007/BF00680619', 'volume': '157'}, 'key': '16_CR190', 'year': 1995, 'container_name': 'Solar Phys', 'title': None, 'locator': '223'}
{'index': 190, 'target_release_id': None, 'extra': {'authors': ['S Serio'], 'doi': '10.1007/bf00154932', 'unstructured': 'Serio S, Vaiana GS, Godoli G, Motta S, Pirronello V, Zappala RA (1978) Configuration and gradual dynamics of prominence-related X-ray coronal cavities. Solar Phys 59:65–86. https://doi.org/10.1007/BF00154932', 'volume': '59'}, 'key': '16_CR191', 'year': 1978, 'container_name': 'Solar Phys', 'title': None, 'locator': '65'}
{'index': 191, 'target_release_id': None, 'extra': {'authors': ['RM Straka'], 'doi': '10.1007/bf00152225', 'unstructured': 'Straka RM, Papagiannis MD, Kogut JA (1975) Study of a filament with a circularly polarized beam at 3.8 cm. Solar Phys 45:131. https://doi.org/10.1007/BF00152225', 'volume': '45'}, 'key': '16_CR192', 'year': 1975, 'container_name': 'Solar Phys', 'title': None, 'locator': '131'}
{'index': 192, 'target_release_id': None, 'extra': {'authors': ['Y Su'], 'doi': '10.1088/0004-637x/757/2/168', 'unstructured': 'Su Y, van Ballegooijen A (2012) Observations and magnetic field modeling of a solar polar crown prominence. Astrophys J 757:168. https://doi.org/10.1088/0004-637X/757/2/168. arXiv:1208.1524', 'volume': '757'}, 'key': '16_CR193', 'year': 2012, 'container_name': 'Astrophys J', 'title': None, 'locator': '168'}
{'index': 193, 'target_release_id': None, 'extra': {'authors': ['Y Su'], 'doi': '10.1088/2041-8205/785/1/l2', 'unstructured': 'Su Y, Gömöry P, Veronig A, Temmer M, Wang T, Vanninathan K, Gan W, Li Y (2014) Solar magnetized tornadoes: rotational motion in a tornado-like prominence. Astrophys J Lett 785:L2. https://doi.org/10.1088/2041-8205/785/1/L2. arXiv:1312.5226', 'volume': '785'}, 'key': '16_CR194', 'year': 2014, 'container_name': 'Astrophys J Lett', 'title': None, 'locator': 'L2'}
{'index': 194, 'target_release_id': None, 'extra': {'authors': ['E Tandberg-Hanssen'], 'doi': '10.1007/978-94-010-2136-4', 'unstructured': 'Tandberg-Hanssen E (1974) Solar prominences. Geophysics and astrophysics monographs, vol 12. D. Reidel, Dordrecht. https://doi.org/10.1007/978-94-010-2136-4', 'volume-title': 'Solar prominences. Geophysics and astrophysics monographs'}, 'key': '16_CR195', 'year': 1974, 'container_name': 'Solar prominences. Geophysics and astrophysics monographs', 'title': None, 'locator': None}
{'index': 195, 'target_release_id': None, 'extra': {'authors': ['E Tandberg-Hanssen'], 'doi': '10.1007/978-94-017-3396-0', 'unstructured': 'Tandberg-Hanssen E (1995) The nature of solar prominences. Astrophysics and space science library, vol 199. Kluwer Academic, Dordrecht. https://doi.org/10.1007/978-94-017-3396-0', 'volume-title': 'The nature of solar prominences. Astrophysics and space science library'}, 'key': '16_CR196', 'year': 1995, 'container_name': 'The nature of solar prominences. Astrophysics and space science library', 'title': None, 'locator': None}
{'index': 196, 'target_release_id': None, 'extra': {'authors': ['F Tang'], 'doi': '10.1007/bf00152021', 'unstructured': 'Tang F (1987) Quiescent prominences—where are they formed? Solar Phys 107:233. https://doi.org/10.1007/BF00152021', 'volume': '107'}, 'key': '16_CR197', 'year': 1987, 'container_name': 'Solar Phys', 'title': None, 'locator': '233'}
{'index': 197, 'target_release_id': None, 'extra': {'authors': ['J Terradas'], 'doi': '10.1088/0004-637x/799/1/94', 'unstructured': 'Terradas J, Soler R, Luna M, Oliver R, Ballester JL (2015) Morphology and dynamics of solar prominences from 3D MHD simulations. Astrophys J 799:94. https://doi.org/10.1088/0004-637X/799/1/94. arXiv:1412.7438', 'volume': '799'}, 'key': '16_CR198', 'year': 2015, 'container_name': 'Astrophys J', 'title': None, 'locator': '94'}
{'index': 198, 'target_release_id': None, 'extra': {'authors': ['J Terradas'], 'doi': '10.3847/0004-637x/820/2/125', 'unstructured': 'Terradas J, Soler R, Luna M, Oliver R, Ballester JL, Wright AN (2016) Solar prominences embedded in flux ropes: morphological features and dynamics from 3D MHD simulations. Astrophys J 820:125. https://doi.org/10.3847/0004-637X/820/2/125. arXiv:1512.07096', 'volume': '820'}, 'key': '16_CR199', 'year': 2016, 'container_name': 'Astrophys J', 'title': None, 'locator': '125'}
{'index': 199, 'target_release_id': None, 'extra': {'authors': ['VS Titov'], 'unstructured': 'Titov VS, Démoulin P (1999) Basic topology of twisted magnetic configurations in solar flares. Astron Astrophys 351:707', 'volume': '351'}, 'key': '16_CR200', 'year': 1999, 'container_name': 'Astron Astrophys', 'title': None, 'locator': '707'}
{'index': 200, 'target_release_id': None, 'extra': {'authors': ['VS Titov'], 'doi': '10.1029/2001ja000278', 'unstructured': 'Titov VS, Hornig G, Démoulin P (2002) Theory of magnetic connectivity in the solar corona. J Geophys Res 107:1164. https://doi.org/10.1029/2001JA000278', 'volume': '107'}, 'key': '16_CR201', 'year': 2002, 'container_name': 'J Geophys Res', 'title': None, 'locator': '1164'}
{'index': 201, 'target_release_id': None, 'extra': {'authors': ['VS Titov'], 'doi': '10.1086/344799', 'unstructured': 'Titov VS, Galsgaard K, Neukirch T (2003) Magnetic pinching of hyperbolic flux tubes. I. Basic estimations. Astrophys J 582:1172. https://doi.org/10.1086/344799', 'volume': '582'}, 'key': '16_CR202', 'year': 2003, 'container_name': 'Astrophys J', 'title': None, 'locator': '1172'}
{'index': 202, 'target_release_id': None, 'extra': {'authors': ['S Tomczyk'], 'doi': '10.1007/s11207-007-9103-6', 'unstructured': 'Tomczyk S, Card GL, Darnell T, Elmore DF, Lull R, Nelson PG, Streander KV, Burkepile J, Casini R, Judge PG (2008) An instrument to measure coronal emission line polarization. Solar Phys 247:411. https://doi.org/10.1007/s11207-007-9103-6', 'volume': '247'}, 'key': '16_CR203', 'year': 2008, 'container_name': 'Solar Phys', 'title': None, 'locator': '411'}
{'index': 203, 'target_release_id': None, 'extra': {'authors': ['T Török'], 'doi': '10.1086/462412', 'unstructured': 'Török T, Kliem B (2005) Confined and ejective eruptions of kink-unstable flux ropes. Astrophys J Lett 630:L97', 'volume': '630'}, 'key': '16_CR204', 'year': 2005, 'container_name': 'Astrophys J Lett', 'title': None, 'locator': 'L97'}
{'index': 204, 'target_release_id': None, 'extra': {'authors': ['T Török'], 'doi': '10.1051/0004-6361:20031691', 'unstructured': 'Török T, Kliem B, Titov VS (2004) Ideal kink instability of a magnetic loop equilibrium. Astron Astrophys 413:L27', 'volume': '413'}, 'key': '16_CR205', 'year': 2004, 'container_name': 'Astron Astrophys', 'title': None, 'locator': 'L27'}
{'index': 205, 'target_release_id': None, 'extra': {'authors': ['D Tripathi'], 'doi': '10.1051/0004-6361/200809801', 'unstructured': 'Tripathi D, Gibson SE, Qiu J, Fletcher L, Liu R, Gilbert H, Mason HE (2009) Partially-erupting prominences: a comparison between observations and model-predicted observables. Astron Astrophys 498:295–305. https://doi.org/10.1051/0004-6361/200809801. arXiv:0902.1228', 'volume': '498'}, 'key': '16_CR206', 'year': 2009, 'container_name': 'Astron Astrophys', 'title': None, 'locator': '295'}
{'index': 206, 'target_release_id': None, 'extra': {'authors': ['GS Vaiana'], 'doi': '10.1007/bf00152731', 'unstructured': 'Vaiana GS, Krieger AS, Timothy AF (1973) Identification and analysis of structures in the corona from X-ray photography. Solar Phys 32:81–116. https://doi.org/10.1007/BF00152731', 'volume': '32'}, 'key': '16_CR207', 'year': 1973, 'container_name': 'Solar Phys', 'title': None, 'locator': '81'}
{'index': 207, 'target_release_id': None, 'extra': {'authors': ['AA Ballegooijen van'], 'doi': '10.1086/422512', 'unstructured': 'van Ballegooijen AA (2004) Observations and modeling of a filament on the sun. Astrophys J 612:519. https://doi.org/10.1086/422512', 'volume': '612'}, 'key': '16_CR208', 'year': 2004, 'container_name': 'Astrophys J', 'title': None, 'locator': '519'}
{'index': 208, 'target_release_id': None, 'extra': {'authors': ['AA Ballegooijen van'], 'doi': '10.1088/0004-637x/711/1/164', 'unstructured': 'van Ballegooijen AA, Cranmer SR (2010) Tangled magnetic fields in solar prominences. Astrophys J 711:164. https://doi.org/10.1088/0004-637X/711/1/164', 'volume': '711'}, 'key': '16_CR209', 'year': 2010, 'container_name': 'Astrophys J', 'title': None, 'locator': '164'}
{'index': 209, 'target_release_id': None, 'extra': {'authors': ['AA Ballegooijen van'], 'doi': '10.1086/512849', 'unstructured': 'van Ballegooijen AA, Mackay DH (2007) Model for the coupled evolution of subsurface and coronal magnetic fields in solar active regions. Astrophys J 659:1713–1725. https://doi.org/10.1086/512849', 'volume': '659'}, 'key': '16_CR210', 'year': 2007, 'container_name': 'Astrophys J', 'title': None, 'locator': '1713'}
{'index': 210, 'target_release_id': None, 'extra': {'authors': ['AA Ballegooijen van'], 'doi': '10.1086/167766', 'unstructured': 'van Ballegooijen AA, Martens PCH (1999) Formation and eruption of solar prominences. Astrophys J 343:971', 'volume': '343'}, 'key': '16_CR211', 'year': 1999, 'container_name': 'Astrophys J', 'title': None, 'locator': '971'}
{'index': 211, 'target_release_id': None, 'extra': {'authors': ['B Vršnak'], 'doi': '10.1007/s11207-004-4995-x', 'unstructured': 'Vršnak B, Maričić D, Stanger AL, Veronig A (2004) Coronal mass ejection of 15 May 2001: II. Coupling of the CME acceleration and the flare energy release. Solar Phys 225:355–378. https://doi.org/10.1007/s11207-004-4995-x', 'volume': '225'}, 'key': '16_CR212', 'year': 2004, 'container_name': 'Solar Phys', 'title': None, 'locator': '355'}
{'index': 212, 'target_release_id': None, 'extra': {'authors': ['M Waldmeier'], 'doi': '10.1007/bf00149483', 'unstructured': 'Waldmeier M (1970) The structure of the monochromatic corona in the surroundings of prominences. Solar Phys 15:167–175. https://doi.org/10.1007/BF00149483', 'volume': '15'}, 'key': '16_CR213', 'year': 1970, 'container_name': 'Solar Phys', 'title': None, 'locator': '167'}
{'index': 213, 'target_release_id': None, 'extra': {'authors': ['YM Wang'], 'doi': '10.1088/2041-8205/719/2/l181', 'unstructured': 'Wang YM, Stenborg G (2010) Spinning motions in coronal cavities. Astrophys J Lett 719:181. https://doi.org/10.1088/2041-8205/719/2/L181', 'volume': '719'}, 'key': '16_CR214', 'year': 2010, 'container_name': 'Astrophys J Lett', 'title': None, 'locator': '181'}
{'index': 214, 'target_release_id': None, 'extra': {'authors': ['A Warmuth'], 'doi': '10.1051/0004-6361:20042169', 'unstructured': 'Warmuth A, Mann G (2005) A model of the Alfvén speed in the solar corona. Astron Astrophys 435:1123–1135. https://doi.org/10.1051/0004-6361:20042169', 'volume': '435'}, 'key': '16_CR215', 'year': 2005, 'container_name': 'Astron Astrophys', 'title': None, 'locator': '1123'}
{'index': 215, 'target_release_id': None, 'extra': {'authors': ['D Webb'], 'doi': '10.1007/978-3-319-10416-4_17', 'unstructured': 'Webb D (2015) Eruptive prominences and their association with coronal mass ejections. In: Engvold O, Vial JC (eds) Solar prominences, vol 415. Springer, Cham, pp 411–432. https://doi.org/10.1007/978-3-319-10416-4_17', 'volume-title': 'Solar prominences'}, 'key': '16_CR216', 'year': 2015, 'container_name': 'Solar prominences', 'title': None, 'locator': '411'}
{'index': 216, 'target_release_id': None, 'extra': {'authors': ['S Wedemeyer'], 'doi': '10.1088/0004-637x/774/2/123', 'unstructured': 'Wedemeyer S, Scullion E, Rouppe van der Voort L, Bosnjak A, Antolin P (2013) Are giant tornadoes the legs of solar prominences? Astrophys J 774:123. https://doi.org/10.1088/0004-637X/774/2/123. arXiv:1306.2661', 'volume': '774'}, 'key': '16_CR217', 'year': 2013, 'container_name': 'Astrophys J', 'title': None, 'locator': '123'}
{'index': 217, 'target_release_id': None, 'extra': {'authors': ['BT Welsch'], 'doi': '10.1086/491641', 'unstructured': 'Welsch BT, DeVore CR, Antiochos SK (2005) Magnetic reconnection models of prominence formation. Astrophys J 634:1395–1404. https://doi.org/10.1086/491641', 'volume': '634'}, 'key': '16_CR218', 'year': 2005, 'container_name': 'Astrophys J', 'title': None, 'locator': '1395'}
{'index': 218, 'target_release_id': None, 'extra': {'authors': ['DR Williams'], 'doi': '10.1093/pasj/61.3.493', 'unstructured': 'Williams DR, Harra LK, Brooks DH, Imada S, Hansteen VH (2009) Evidence from the extreme-ultraviolet imaging spectrometer for axial filament rotation before a large flare. Publ Astron Soc Japan 61:493–497. https://doi.org/10.1093/pasj/61.3.493', 'volume': '61'}, 'key': '16_CR219', 'year': 2009, 'container_name': 'Publ Astron Soc Japan', 'title': None, 'locator': '493'}
{'index': 219, 'target_release_id': None, 'extra': {'authors': ['C Xia'], 'doi': '10.3847/0004-637x/823/1/22', 'unstructured': 'Xia C, Keppens R (2016) Formation and plasma circulation of solar prominences. Astrophys J 823:22. https://doi.org/10.3847/0004-637X/823/1/22. arXiv:1603.05397', 'volume': '823'}, 'key': '16_CR220', 'year': 2016, 'container_name': 'Astrophys J', 'title': None, 'locator': '22'}
{'index': 220, 'target_release_id': None, 'extra': {'authors': ['VB Yurchyshyn'], 'doi': '10.1086/341628', 'unstructured': 'Yurchyshyn VB (2002) Evidence of a flux-rope model for corona mass ejections based on observations of the limb prominence eruption on 2002 January 4. Astrophys J 576:493–496. https://doi.org/10.1086/341628', 'volume': '576'}, 'key': '16_CR221', 'year': 2002, 'container_name': 'Astrophys J', 'title': None, 'locator': '493'}
{'index': 221, 'target_release_id': None, 'extra': {'authors': ['J Zhang'], 'doi': '10.1038/ncomms1753', 'unstructured': 'Zhang J, Cheng X, Ding MD (2012) Observation of an evolving magnetic flux rope before and during a solar eruption. Nature Commun 3:747. https://doi.org/10.1038/ncomms1753. arXiv:1203.4859'}, 'key': '16_CR222', 'year': 2012, 'container_name': 'Nature Commun', 'title': None, 'locator': '747'}
{'index': 222, 'target_release_id': None, 'extra': {'authors': ['JB Zirker'], 'unstructured': 'Zirker JB, Engvold O, Martin SF (1998) Counter-streaming gas flows in solar prominences as evidence for vertical magnetic fields. Science 396:440', 'volume': '396'}, 'key': '16_CR223', 'year': 1998, 'container_name': 'Science', 'title': None, 'locator': '440'}
release_date 2018-10-22
release_stage published
release_type article-journal
release_year 2018
subtitle Fleshing out the magnetic skeleton
title Solar prominences: theory and models
version
volume 15
webcaptures[] {'state': 'active', 'ident': '4dnddldr5bh35mqviofnltlodm', 'revision': '39401b87-b81c-4bbf-a264-de650584f6b8', 'redirect': None, 'extra': None, 'edit_extra': None, 'cdx': [{'surt': 'com,springer,link)/article/10.1007/s41116-018-0016-2', 'timestamp': datetime.datetime(2022, 4, 4, 4, 1, 56, tzinfo=tzlocal()), 'url': 'https://link.springer.com/article/10.1007/s41116-018-0016-2', 'mimetype': 'text/html', 'status_code': 200, 'size': 755507, 'sha1': '157cfb93750a894b4ae79ff41750fb7830c3121d', 'sha256': 'c64b5835acab94e388ec8234310a381345614a95cd154cc6d5142f276b721895'}, {'surt': 'com,springernature,media)/lw685/springer-static/image/art:10.1007/s41116-018-0016-2/mediaobjects/41116_2018_16_fig8_html.png', 'timestamp': datetime.datetime(2022, 4, 4, 4, 2, 9, tzinfo=tzlocal()), 'url': 'https://media.springernature.com/lw685/springer-static/image/art%3A10.1007%2Fs41116-018-0016-2/MediaObjects/41116_2018_16_Fig8_HTML.png', 'mimetype': 'image/png', 'status_code': None, 'size': 189750, 'sha1': '62cba02fba5e9e1ff1353c08341fb4fe19955286', 'sha256': 'ed1b01b9792dc2a644bb14ba81d317f72f0535ea81c654f39647f5b2076579fc'}, {'surt': 'com,springernature,media)/lw685/springer-static/image/art:10.1007/s41116-018-0016-2/mediaobjects/41116_2018_16_fig16_html.png', 'timestamp': datetime.datetime(2022, 4, 4, 4, 2, 5, tzinfo=tzlocal()), 'url': 'https://media.springernature.com/lw685/springer-static/image/art%3A10.1007%2Fs41116-018-0016-2/MediaObjects/41116_2018_16_Fig16_HTML.png', 'mimetype': 'image/png', 'status_code': None, 'size': 178112, 'sha1': 'fa9191a86403a4910a025cadbfd9ff441b19c307', 'sha256': '6aba7863947ffaa9023132c30d23da7db47c47b6cda3489af1fc940c3ed87660'}, {'surt': 'com,springer,link)/.cdn-rum/performance.js', 'timestamp': datetime.datetime(2022, 4, 4, 18, 7, 18, tzinfo=tzlocal()), 'url': 'https://link.springer.com/.cdn-rum/performance.js', 'mimetype': 'text/plain', 'status_code': None, 'size': 1511, 'sha1': '731a3698d36c1a61bf3afaa93f2b7a41f2054a94', 'sha256': 'c9cb8da44b16337c11a8b05edc703fc37389aa2a7e83e595c8da7fba63743558'}, {'surt': 'com,springernature,media)/lw685/springer-static/image/art:10.1007/s41116-018-0016-2/mediaobjects/41116_2018_16_fig17_html.png', 'timestamp': datetime.datetime(2022, 4, 4, 4, 2, 5, tzinfo=tzlocal()), 'url': 'https://media.springernature.com/lw685/springer-static/image/art%3A10.1007%2Fs41116-018-0016-2/MediaObjects/41116_2018_16_Fig17_HTML.png', 'mimetype': 'image/png', 'status_code': None, 'size': 99744, 'sha1': '71fa8265030198459d5c357d097cf64a1a68fa00', 'sha256': 'abb8de25279c4292df9f8d9ab8dc4226577e31fef8b0354a719ffd8a242c467d'}, {'surt': 'com,springernature,media)/lw685/springer-static/image/art:10.1007/s41116-018-0016-2/mediaobjects/41116_2018_16_fig18_html.png', 'timestamp': datetime.datetime(2022, 4, 4, 4, 2, 9, tzinfo=tzlocal()), 'url': 'https://media.springernature.com/lw685/springer-static/image/art%3A10.1007%2Fs41116-018-0016-2/MediaObjects/41116_2018_16_Fig18_HTML.png', 'mimetype': 'image/png', 'status_code': None, 'size': 237058, 'sha1': '1cd5e59d2f4c8f21b15612b500d6af985dcdd0d9', 'sha256': '158c9c0282beeb047d06b959491a308dcb2a368cb2735214f49974dc30b49367'}, {'surt': 'com,springernature,media)/lw685/springer-static/image/art:10.1007/s41116-018-0016-2/mediaobjects/41116_2018_16_fig11_html.png', 'timestamp': datetime.datetime(2022, 4, 4, 4, 2, 6, tzinfo=tzlocal()), 'url': 'https://media.springernature.com/lw685/springer-static/image/art%3A10.1007%2Fs41116-018-0016-2/MediaObjects/41116_2018_16_Fig11_HTML.png', 'mimetype': 'image/png', 'status_code': None, 'size': 286612, 'sha1': 'abea54199ba2db63a111146d01c451bb44c110eb', 'sha256': '5abcb546afdcc191eea123426e7340bb85c1ca03bab9eba68d76f7a29595a437'}, {'surt': 'com,springer,link)/oscar-static/images/springerlink/png/springerlink-1db8a5b8b1.png', 'timestamp': datetime.datetime(2022, 4, 4, 15, 58, 27, tzinfo=tzlocal()), 'url': 'https://link.springer.com/oscar-static/images/springerlink/png/springerlink-1db8a5b8b1.png', 'mimetype': 'image/png', 'status_code': None, 'size': 4031, 'sha1': 'a3f498b5d8064371606b469ea253ec6ee521bc6b', 'sha256': '418daf518079ffbf4fd31e79d4a026f93f8db7db3241d6ffe05c14a262dc0dd9'}, {'surt': 'com,springernature,media)/lw685/springer-static/image/art:10.1007/s41116-018-0016-2/mediaobjects/41116_2018_16_fig14_html.png', 'timestamp': datetime.datetime(2022, 4, 4, 4, 2, 5, tzinfo=tzlocal()), 'url': 'https://media.springernature.com/lw685/springer-static/image/art%3A10.1007%2Fs41116-018-0016-2/MediaObjects/41116_2018_16_Fig14_HTML.png', 'mimetype': 'image/png', 'status_code': None, 'size': 228136, 'sha1': '91ce0e9c18844207b0cacc7a9b5fe33ae4f73acb', 'sha256': 'be4b5a4f111b92fa5d335ef6ba8490f423f163f3261c01cef1e37998d14d69b7'}, {'surt': 'com,springernature,media)/lw685/springer-static/image/art:10.1007/s41116-018-0016-2/mediaobjects/41116_2018_16_fig4_html.png', 'timestamp': datetime.datetime(2022, 4, 4, 4, 2, 6, tzinfo=tzlocal()), 'url': 'https://media.springernature.com/lw685/springer-static/image/art%3A10.1007%2Fs41116-018-0016-2/MediaObjects/41116_2018_16_Fig4_HTML.png', 'mimetype': 'image/png', 'status_code': None, 'size': 132128, 'sha1': '6da1f828afa9dc676f01cf83d3d3685164df7e90', 'sha256': '6ecbae951e96c550a0be0d79cbdc20e87fbe646a346aae9e97242736a1dd9937'}, {'surt': 'com,springernature,media)/lw685/springer-static/image/art:10.1007/s41116-018-0016-2/mediaobjects/41116_2018_16_fig12_html.png', 'timestamp': datetime.datetime(2022, 4, 4, 4, 2, 9, tzinfo=tzlocal()), 'url': 'https://media.springernature.com/lw685/springer-static/image/art%3A10.1007%2Fs41116-018-0016-2/MediaObjects/41116_2018_16_Fig12_HTML.png', 'mimetype': 'image/png', 'status_code': None, 'size': 322066, 'sha1': 'a8457429f5127f539fee0036ee68b32335176fa3', 'sha256': 'f412bb00e93191bc353b5849a074e0073a63a6ab232f7eb202ee8c52ea144788'}, {'surt': 'com,springernature,media)/lw685/springer-static/image/art:10.1007/s41116-018-0016-2/mediaobjects/41116_2018_16_fig19_html.png', 'timestamp': datetime.datetime(2022, 4, 4, 4, 2, 5, tzinfo=tzlocal()), 'url': 'https://media.springernature.com/lw685/springer-static/image/art%3A10.1007%2Fs41116-018-0016-2/MediaObjects/41116_2018_16_Fig19_HTML.png', 'mimetype': 'image/png', 'status_code': None, 'size': 245582, 'sha1': '7704512629c38c86ff918ee656720b8ee413b8cf', 'sha256': '94d96d32c26d371eb3c826771a1316ff2bff4e49fef0b85744d03ca299706141'}, {'surt': 'com,springernature,media)/lw685/springer-static/image/art:10.1007/s41116-018-0016-2/mediaobjects/41116_2018_16_fig3_html.png', 'timestamp': datetime.datetime(2022, 4, 4, 4, 2, 6, tzinfo=tzlocal()), 'url': 'https://media.springernature.com/lw685/springer-static/image/art%3A10.1007%2Fs41116-018-0016-2/MediaObjects/41116_2018_16_Fig3_HTML.png', 'mimetype': 'image/png', 'status_code': None, 'size': 74085, 'sha1': 'f8ad39c6bd20614986f699a05049c8388c80937f', 'sha256': 'e688cc52940c886c2a2bab19606a553bede83e1fd9e3ca0d81fc13cea82131ae'}, {'surt': 'com,springer,link)/oscar-static/app-springerlink/css/enhanced-article-e7ce661747.css', 'timestamp': datetime.datetime(2022, 4, 5, 2, 10, 20, tzinfo=tzlocal()), 'url': 'https://link.springer.com/oscar-static/app-springerlink/css/enhanced-article-e7ce661747.css', 'mimetype': 'text/plain', 'status_code': None, 'size': 107907, 'sha1': '902c3e9ce08865c433c904caf428191bed728eac', 'sha256': '4f46ae5f779e438f6d5035e4e251e3d8f62d3029d1fe0e2039eb23da95c8e52f'}, {'surt': 'com,springernature,media)/lw685/springer-static/image/art:10.1007/s41116-018-0016-2/mediaobjects/41116_2018_16_fig5_html.png', 'timestamp': datetime.datetime(2022, 4, 4, 4, 2, 7, tzinfo=tzlocal()), 'url': 'https://media.springernature.com/lw685/springer-static/image/art%3A10.1007%2Fs41116-018-0016-2/MediaObjects/41116_2018_16_Fig5_HTML.png', 'mimetype': 'image/png', 'status_code': None, 'size': 281480, 'sha1': 'a0cb117079673a86402282ffc9c17bc4c6343b9c', 'sha256': '4d56f0ee36a27a9437c0a779c11625c1adda533ba719e99c28f89184f01dd539'}, {'surt': 'com,springernature,media)/lw685/springer-static/image/art:10.1007/s41116-018-0016-2/mediaobjects/41116_2018_16_fig7_html.png', 'timestamp': datetime.datetime(2022, 4, 4, 4, 2, 5, tzinfo=tzlocal()), 'url': 'https://media.springernature.com/lw685/springer-static/image/art%3A10.1007%2Fs41116-018-0016-2/MediaObjects/41116_2018_16_Fig7_HTML.png', 'mimetype': 'image/png', 'status_code': None, 'size': 217051, 'sha1': '7768aa6fec7eba6f18690f44aadfddebc2f37a96', 'sha256': '0600f206b940843e82787d69d537790e816c0515b312cb45c35d77d712b5d455'}, {'surt': 'com,springer,collect)/ns.html?id=gtm-mrvxshq', 'timestamp': datetime.datetime(2022, 4, 6, 5, 14, 52, tzinfo=tzlocal()), 'url': 'https://collect.springer.com/ns.html?id=GTM-MRVXSHQ', 'mimetype': 'text/html', 'status_code': None, 'size': 266, 'sha1': '324c4b1ee43eda1598c6dab16e73a52005e7af63', 'sha256': '7608faa454a62b913425499bdb545eb641f42e975bfb8856ced9b7d3be295fdc'}, {'surt': 'com,springernature,media)/lw685/springer-static/image/art:10.1007/s41116-018-0016-2/mediaobjects/41116_2018_16_fig2_html.png', 'timestamp': datetime.datetime(2020, 11, 28, 20, 4, 15, tzinfo=tzlocal()), 'url': 'https://media.springernature.com/lw685/springer-static/image/art%3A10.1007%2Fs41116-018-0016-2/MediaObjects/41116_2018_16_Fig2_HTML.png', 'mimetype': 'image/png', 'status_code': None, 'size': 107353, 'sha1': '7e57482684673a73fad40bb380f12c6ae3ca03c0', 'sha256': '7ea9355b065deb4d6bb6b5ad2457cb79481f399ebe0132fc9406ab31abc753bc'}, {'surt': 'com,springernature,media)/lw685/springer-static/image/art:10.1007/s41116-018-0016-2/mediaobjects/41116_2018_16_fig10_html.png', 'timestamp': datetime.datetime(2022, 4, 4, 4, 2, 9, tzinfo=tzlocal()), 'url': 'https://media.springernature.com/lw685/springer-static/image/art%3A10.1007%2Fs41116-018-0016-2/MediaObjects/41116_2018_16_Fig10_HTML.png', 'mimetype': 'image/png', 'status_code': None, 'size': 472343, 'sha1': '25dfc27998229db04165ba2c8f9da2113a9d2376', 'sha256': '4fb9b62149650be73868971172fdb5130a26f4457a85d3000b1c4b21cb8f5e11'}, {'surt': 'com,springernature,media)/lw685/springer-static/image/art:10.1007/s41116-018-0016-2/mediaobjects/41116_2018_16_fig20_html.png', 'timestamp': datetime.datetime(2022, 4, 4, 4, 2, 6, tzinfo=tzlocal()), 'url': 'https://media.springernature.com/lw685/springer-static/image/art%3A10.1007%2Fs41116-018-0016-2/MediaObjects/41116_2018_16_Fig20_HTML.png', 'mimetype': 'image/png', 'status_code': None, 'size': 214865, 'sha1': '98e9ac424b914a28c38f059e6134e9f412f4ebfe', 'sha256': 'a30f586d52d43c39d9d167fdaec2190d090b1507adc659c8ab1e771d57321e1a'}, {'surt': 'com,springernature,media)/lw685/springer-static/image/art:10.1007/s41116-018-0016-2/mediaobjects/41116_2018_16_fig9_html.png', 'timestamp': datetime.datetime(2022, 4, 4, 4, 2, 5, tzinfo=tzlocal()), 'url': 'https://media.springernature.com/lw685/springer-static/image/art%3A10.1007%2Fs41116-018-0016-2/MediaObjects/41116_2018_16_Fig9_HTML.png', 'mimetype': 'image/png', 'status_code': None, 'size': 222349, 'sha1': '39f82973d919dd90258c6ea17947e632302d5fee', 'sha256': 'f506613d616436104efe852bf6832ece4c79fe333a7f323eb8aeb4bd30da1341'}, {'surt': 'com,springernature,media)/lw685/springer-static/image/art:10.1007/s41116-018-0016-2/mediaobjects/41116_2018_16_fig13_html.png', 'timestamp': datetime.datetime(2022, 4, 4, 4, 2, 6, tzinfo=tzlocal()), 'url': 'https://media.springernature.com/lw685/springer-static/image/art%3A10.1007%2Fs41116-018-0016-2/MediaObjects/41116_2018_16_Fig13_HTML.png', 'mimetype': 'image/png', 'status_code': None, 'size': 262730, 'sha1': '07139f45076c0313008f5e1ab0a82d2400410c90', 'sha256': 'a83bedba35148a60e13cfbbabb2d0526a8af14fc1e2a070a984b1cbe71be06f9'}, {'surt': 'com,springernature,media)/lw685/springer-static/image/art:10.1007/s41116-018-0016-2/mediaobjects/41116_2018_16_fig15_html.png', 'timestamp': datetime.datetime(2022, 4, 4, 4, 2, 7, tzinfo=tzlocal()), 'url': 'https://media.springernature.com/lw685/springer-static/image/art%3A10.1007%2Fs41116-018-0016-2/MediaObjects/41116_2018_16_Fig15_HTML.png', 'mimetype': 'image/png', 'status_code': None, 'size': 220719, 'sha1': 'c837f4363a142f8f1e7eb8c91552750d6c5facaf', 'sha256': '8b15f631902dd0b287e67a1baeaf424c8f59c0117f17f477dea5b94c80f103ca'}, {'surt': 'com,springernature,media)/lw685/springer-static/image/art:10.1007/s41116-018-0016-2/mediaobjects/41116_2018_16_fig1_html.jpg', 'timestamp': datetime.datetime(2022, 4, 4, 4, 2, 6, tzinfo=tzlocal()), 'url': 'https://media.springernature.com/lw685/springer-static/image/art%3A10.1007%2Fs41116-018-0016-2/MediaObjects/41116_2018_16_Fig1_HTML.jpg', 'mimetype': 'image/jpeg', 'status_code': None, 'size': 55886, 'sha1': '799b36d7c88af231415803f3d8a99be1e9c49030', 'sha256': '262e21a37988b897ab3bd3b31347e5b004a95ee10c0eaae76971a10b4a1b561f'}, {'surt': 'com,springernature,media)/lw685/springer-static/image/art:10.1007/s41116-018-0016-2/mediaobjects/41116_2018_16_fig6_html.png', 'timestamp': datetime.datetime(2022, 4, 4, 4, 2, 7, tzinfo=tzlocal()), 'url': 'https://media.springernature.com/lw685/springer-static/image/art%3A10.1007%2Fs41116-018-0016-2/MediaObjects/41116_2018_16_Fig6_HTML.png', 'mimetype': 'image/png', 'status_code': None, 'size': 366830, 'sha1': 'f18abbde49e5b87cc5732ad5e59af3985bc0d7e6', 'sha256': '8d3314f0dd34b610882b9a27dedb1003be072b59a1d03b80b2448f670f64ce0d'}], 'archive_urls': [{'url': 'https://web.archive.org/web/20220404040156/https://link.springer.com/article/10.1007/s41116-018-0016-2', 'rel': 'webarchive'}], 'original_url': 'https://link.springer.com/article/10.1007/s41116-018-0016-2', 'timestamp': datetime.datetime(2022, 4, 4, 4, 1, 56, tzinfo=tzlocal()), 'content_scope': None, 'release_ids': ['c2e6mkfoibe23otu3jyhxbuofa'], 'releases': None}
withdrawn_date
withdrawn_status
withdrawn_year
work_id ukrkcjtxhfghfbrn2tl65qhrpi
As JSON via API

Extra Metadata (raw JSON)

container_name Living Reviews in Solar Physics
crossref.alternative-id ['16']
crossref.funder [{'DOI': '10.13039/100000104', 'award': ['NNX16AH02G'], 'doi-asserted-by': 'publisher', 'name': 'National Aeronautics and Space Administration'}, {'DOI': '10.13039/100000001', 'award': [], 'doi-asserted-by': 'publisher', 'name': 'National Science Foundation'}]
crossref.subject ['Space and Planetary Science', 'Astronomy and Astrophysics']
crossref.type journal-article
pubmed.pub_types ['Journal Article']