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Chromatographic study of expert and biological samples containing desomorphine

S. A. Savchuk, S. S. Barsegyan, I. B. Barsegyan, G. M. Kolesov
2008 Journal of Analytical Chemistry  
phase B in a volume of 4000 µ L, next 100% mobile phase B in a volume up to 4500 µ L; flow rate of the eluent, 100 µ L/min; column temperature, 40 ° C.  ...  Data processing was carried out on a chemical station Enhanced Head Station G-1701 DA Version D.00.00.38.  ... 
doi:10.1134/s1061934808040096 fatcat:bkcz25nvt5aurj7jypkolu6azu

STREAK IMAGE CAMERA "AGAT" WITH PICOSECOND TIME RESOLUTION USED FOR INVESTIGATIONS IN PLASMA PHYSICS

V. I. Averin, O. M. Brekhov, B. S. Gorbenko, A. F. Klepov, G. V. Kolesov, L. I. Kondrashova, V. V. Lebedev, V. A. Miller, B. M. Stepanov
1979 Le Journal de Physique Colloques  
n a l s of radiation i n v i s i b l e and near-infrared region a s well as i n s o f t X-ray one.  ...  n t i f i c Research I n s t i t u t e of Optical-Physical Measurements together with t h e Physical I n s t i t u t e of t h e Soviet Academy of Sciences, make it possible t o record t h e pulse s i g  ...  Photochronographic recording -Mass, kg ................ not more, b r e a k d o w n i n g a s b e t w e e n t h e p o i n t s 8f t h e electrodes. The sweep r a t e i s 1,3 10 c d s .  ... 
doi:10.1051/jphyscol:19797423 fatcat:fxxdavz4cvdttjyvuxhj2hfzbm

Room Temperature Molecular Single-Electron Transistor [article]

E. S. Soldatov, V. V. Khanin, A. S. Trifonov, S. P. Gubin, V. V. Kolesov, D. E. Presnov, S. A. Iakovenko, G. B. Khomutov, and A. N. Korotkov (Moscow State University, Moscow Institute of General and Inorganic Chemistry, and Moscow Institute of Radioengineering, Electronics)
1997 arXiv   pre-print
The modulation amplitude of the I − V g curve depends on the dc bias voltage V .  ...  The gate capacitance C g calculated from the period of the control curve (curve 1 in Fig. 4) is about 2×10 −19 F.  ... 
arXiv:cond-mat/9610155v2 fatcat:blwaplsgubamngkfwrexgc4z7y

Effect of high pressure/low temperature on cysteine, its salts and derivatives

V. S. Minkov, B. A. Kolesov, S. V. Goryainov, V. A. Drebushchak, T. N. Drebushchak, A. G. Ogienko, E. V. Boldyreva
2011 Acta Crystallographica Section A Foundations of Crystallography  
B, 2008, 112, 8851-8854. [2] V.S. Minkov, N.A. Tumanov, B.A. Kolesov, E.V. Boldyreva, S.N. Bizyaev, J. Phys. Chem. B, 2009, 113, 5262-5272. [3] V.S. Minkov, S.V. Goryainov, E.V. Boldyreva, C.H.  ...  Bourenkov, b a ESRF, Rue Jules Horowitz, BP 220, Grenoble (France). b EMBL Hamburg, Notkestraße 85, Hamburg (Germany). E-mail: apopov@esrf.fr  ... 
doi:10.1107/s0108767311098990 fatcat:q5qzimx66jhjnffsyrrn7bbzay

Manifestations of the tsunami on November 15, 2006, on the central Kuril Islands and results of the runup heights modeling

B. W. Levin, V. M. Kaistrenko, A. V. Rybin, M. A. Nosov, T. K. Pinegina, N. G. Razzhigaeva, E. V. Sasorova, K. S. Ganzei, T. N. Ivel'skaya, E. A. Kravchunovskaya, S. V. Kolesov, Yu. V. Evdokimov (+3 others)
2008 Doklady Earth Sciences  
Levin B.  ...  Kolesov, Yu.V. Evdokimov, J. Bourgeois, B. MacInnes, Fig. 1 . 1 Region of fieldwork and sites of studied coasts. All islands are shown in different scales; the bar length is 5 km in each case.  ... 
doi:10.1134/s1028334x08020335 fatcat:xootnkgsfjbpflbgirx6cxqbxq

DC-60 heavy ion cyclotron complex: The first beams and project parameters

B. Gikal, S. Dmitriev, P. Apel, S. Bogomolov, O. Borisov, V. Buzmakov, G. Gulbekyan, I. Ivanenko, O. Ivanov, M. Itkis, N. Kazarinov, I. Kalagin (+5 others)
2008 Physics of Particles and Nuclei Letters  
Creation of the DC60 Heavy Ion Cyclotron for the Interdisciplinary Scientiˇc and Research Complex (ISRC) in Astana was started in early 2004. In the summer of 2006 the units of the cyclotron complex after their manufacturing and complex testing at the Flerov Laboratory of Nuclear Reactions, JINR, were delivered to Astana and assembled in the ISRC building. Physical start-up of the cyclotron took place in September 2006 and in December there were obtained accelerated and extracted heavy-ion
more » ... in the whole of the projected range. The complex based on the DC60 cyclotron is intended for applied and fundamental research using beams of accelerated ions from carbon to xenon with energies from 0.34 to 1.77 MeV/nucleon, as well as for experiments on the channel of low-energy ion beams received from an ECR source with extraction intensities of up to 25 kV. On the DC60 cyclotron the accelerated ions energy variation is carried out through changing the ion charge, a possibility of smooth variation of ion energy by ±30% of the nominal value by means of changing the cyclotron magneticˇeld is also envisaged. Within the framework of commissioning the DC60 cyclotron, a number of experiments have been carried out on accelerating charged particle beams in the main points of the working diagram: • Investigation of acceleration modes for ions of nitrogen, argon, krypton ( 14 N 2+ , 40 Ar 4+ , 40 Ar 5+ , 40 Ar 7+ , 84 Kr 12+ ) on the 4th and 6th harmonics of RF accelerating voltage in the whole range of magneticˇeld variations. • Investigation of possibilities for bunching the beam with a buncher and of the in uence of injected beam intensity on the acceleration efˇciency. • A beam has been extracted from the accelerator with an efˇciency exceeding 60%. • Accelerated ion beam of krypton ( 84 Kr 12+ ) with a current of up to 2 μA was extracted into a beam transport channel, shaped and transported to a technological facility for polymerˇlm irradiation. There has been shaped the irradiationˇeld with a required particle ux density and homogeneity, and experimental irradiation of polymerˇlm has been carried out. • Investigation of the modes of operational correction of the magneticˇeld with radial correcting coils of the cyclotron. DC60 Heavy Ion Cyclotron Complex: First Beams and Project Parameters 161 'μ §¤ ´¨¥ ͨ±²μÉ·μ´ ÉÖ¦¥²Ǫ̀μ´μ¢ "--60 ¤²Ö OE¥¦¤¨¸Í¨ ¶²¨´ ·´μ£μ´ Êδμ-¨¸¸²¥-¤μ¢ É¥²Ó¸±μ£μ ±μ³ ¶²¥±¸ (OEˆŠ) ¢ ¸É ´¥ ¡Ò²μ´ Î Éμ ¢´ Î ²¥ 2004 £. μ¸²¥¨ §£μÉμ¢²¥´¨Ö± μ³ ¶²¥±¸´μ° ¶·μ¢¥·±¨Ê §²μ¢ ʸ±μ·¨É¥²Ö ¢ ‹ ¡μ· Éμ·¨¨Ö¤¥·´ÒÌ ·¥ ±Í¨°¨³. ƒ. . "²¥·μ¢ ˆŸÍ¨± ²μÉ·μ´´Ò°±μ³ ¶²¥±¸¡Ò² ¶μ¸É ¢²¥´¨¸³μ´É¨·μ¢ ´²¥Éμ³ 2006 £. ¢ §¤ ´¨¨OEˆŠ ¢ ¸É ´¥. ' ¥´ÉÖ¡·¥ ¡Ò² μ¸ÊÐ¥¸É¢²¥´Ë¨ §¨Î¥¸±¨° ¶Ê¸± ʸ±μ·¨É¥²Ö, ¢ ¤¥± ¡·¥ 2006 £. ¶μ²ÊÎ¥´Ò ʸ±μ·¥´´Ò¥¢ Ò¢¥¤¥´´Ò¥ ¶Êα¨ÉÖ¦¥²Ǫ̀μ´μ¢ ¢μ ¢¸¥³ ¶·μ¥±É´μ³ ¤¨ ¶ §μ´¥. Šμ³ ¶²¥±¸´ ¡ §¥ ͨ±²μÉ·μ´ "--60 ¶·¥¤´ §´ Î¥´¤²Ö ¶·μ¢¥¤¥´¨Ö ¶·¨±² ¤´Ǫ̀´ ÊÎ-Ǫ̀¸¸²¥¤μ¢ ´¨°´ ¶Êα Ì Ê¸±μ·¥´´Ǫ̀μ´μ¢ μÉ Ê£²¥·μ¤ ¤μ ±¸¥´μ´ ¸Ô´¥·£¨°μÉ 0,34 ¤μ 1,77 OEÔ'/´Ê±²μ´, É ±¦¥ ¤²Ö Ô±¸ ¶¥·¨³¥´Éμ¢´ ± ´ ²¥ ¶ÊÎ±μ¢¨μ´μ¢´¨ §±¨Ì Ô´¥·£¨°, ¶μ²ÊÎ ¥³ÒÌ § --¨¸Éμ䨱 ¸´ ¶·Ö¦¥´¨¥³ Ô±¸É· ±Í¨¨¤μ 25 ±'. ' ·¨ Í¨Ö Ô´¥·£¨¨Ê¸±μ·¥´´Ǫ̀μ´μ¢ ͨ±²μÉ·μ´ "--60 μ¸ÊÐ¥¸É¢²Ö¥É¸Ö ¶ÊÉ¥³¨ §³¥´¥´¨Ö § -·Ö¤ ¨μ´ , ¶·¥¤Ê¸³μÉ·¥´ É ±¦¥ ¢μ §³μ¦´μ¸ÉÓ ¶² ¢´μ°¢ ·¨ ͨ¨Ô´¥·£¨¨¨μ´μ¢ ±30 % μÉ´μ³¨-²Ó´μ° § ¸Î¥É¨ §³¥´¥´¨Ö ³ £´¨É´μ£μ ¶μ²Ö ͨ±²μÉ·μ´ . ' · ³± Ì ¶·μ£· ³³Ò ¶Ê¸±μ-´ ² ¤μδÒÌ · ¡μÉ´ ͨ±²μÉ·μ´¥ "--60 ¡Ò² ¢Ò ¶μ²´¥´·Ö¤ Ô±¸ ¶¥-·¨³¥´Éμ¢ ¶μ ʸ±μ·¥´¨Õ ¶ÊÎ±μ¢ § ·Ö¦¥´´ÒÌ Î ¸É¨Í ¢ μ¸´μ¢´ÒÌ Éμα Ì · ¡μÎ¥°¤¨ £· ³³Ò: •¨¸¸²¥¤μ¢ ´Ò ·¥¦¨³Ò ʸ±μ·¥´¨Ö¨μ´μ¢ §μÉ , ·£μ´ , ±·¨ ¶Éμ´ ( 14 N 2+ , 40 Ar 4+ , 40 Ar 5+ , 40 Ar 7+ , 84 Kr 12+ )´ 4-°¨6-°£ ·³μ´¨± Ì ¢Ò¸μ±μÎ ¸ÉμÉ´μ£μ ʸ±μ·ÖÕÐ¥£μ´ ¶·Ö¦¥´¨Ö ¢μ ¢¸¥³ ¤¨ ¶ §μ´¥ ¢ ·¨ ͨ¨³ £´¨É´μ£μ ¶μ²Ö; •¨¸¸²¥¤μ¢ ´Ò ¢μ §³μ¦´μ¸É¨£·Ê ¶ ¶¨·μ¢±¨ ¶Êα ¸ ¶μ³μÐÓÕ ¡ ´Î¥· ¨¢²¨Ö´¨¥¨´É¥´¸¨¢´μ¸É¦ ¥±É¨·Ê¥³μ£μ ¶Êα ´ ÔËË¥±É¨¢´μ¸ÉÓ Ê¸±μ·¥´¨Ö; • μ¸ÊÐ¥¸É¢²¥´¢Ò¢μ¤ ¶Êα ¨ § ʸ±μ·¨É¥²Ö¸ÔËË¥±É¨¢´μ¸ÉÓÕ ¡μ²¥¥ 60 %; • ¶ÊÎμ± Ê¸±μ·¥´´Ǫ̀μ´μ¢ ±·¨ ¶Éμ´ 84 Kr 12+¸É μ±μ³ ¤μ 2 ³± ¢Ò¢¥¤¥´¢¨μ´´μ-μ ¶É¨Î¥¸±¨°± ´ ²,¸Ëμ·³¨·μ¢ ´¨ ¶·μ¢¥¤¥´¤μ ɥ̴μ²μ£¨Î¥¸±μ°Ê¸É ´μ¢±¨ ¶μ μ¡²ÊÎ¥´¨Õ ¶μ²¨³¥·´μ° ¶²¥´±¨. 'Ëμ·³¨·μ¢ ´μ ¶μ²¥ μ¡²ÊÎ¥´¨Ö¸É·¥¡Ê¥³μ° ¶²μÉ´μ¸ÉÓÕ ¶μÉμ± Î ¸É¨Í¨μ¤´μ·μ¤´μ¸ÉÓÕ,¨ ¶·μ¢¥-¤¥´μ Ô±¸ ¶¥·¨³¥´É ²Ó´μ¥ μ¡²ÊÎ¥´¨¥ ¶μ²¨³¥·´μ° ¶²¥´±¨; •¨¸¸²¥¤μ¢ ´Ò ·¥¦¨³Ò μ ¶¥· ɨ¢´μ°±μ··¥±Í¨¨³ £´¨É´μ£μ ¶μ²Ö · ¤¨ ²Ó´Ò³¨± ÉÊϱ ³Í¨± ²μÉ·μ´ .
doi:10.1134/s1547477108070248 fatcat:442kden5pvf57jiykgqdkxdnsy

Quantum register based on coupled electron spins in a room-temperature solid

P. Neumann, R. Kolesov, B. Naydenov, J. Beck, F. Rempp, M. Steiner, V. Jacques, G. Balasubramanian, M. L. Markham, D. J. Twitchen, S. Pezzagna, J. Meijer (+3 others)
2010 Nature Physics  
, g is the electronic g factor, µ B is the Bohr magneton, r is the distance between spins and r is the unit vector connecting them.  ...  spin Hamiltonian H = NV B i=NV A ( Ŝi D i Ŝi + µ B g e B Ŝi ) + H dip (2) Here D A/B are the zero-field splitting tensors, which mainly split m A,B S = 0(|0 A,B ) and m A,B S = ±1(| ± 1 A,B ) levels by  ...  An adjustable electromagnet supplied a field of 30-80 G in most experiments.  ... 
doi:10.1038/nphys1536 fatcat:i4w6snowp5gn3ghtnsdqp4ygse

GeneExpress: a computer system for description, analysis, and recognition of regulatory sequences in eukaryotic genome

N A Kolchanov, M P Ponomarenko, A E Kel, Kondrakhin YuV, A S Frolov, F A Kolpakov, T N Goryachkovsky, O V Kel, E A Ananko, E V Ignatieva, O A Podkolodnaya, V N Babenko (+13 others)
1998 Proceedings. International Conference on Intelligent Systems for Molecular Biology  
TranslatTon increases with decreasqng the G/C ratio 3. Translation increases with increasing the G/C-imbalance 4. TranslalT"on increases with decreasing the alt-AUG content 5.  ...  Xq~b(S~) is calculated for fixed combination <q, a, b> for each sequence of the site.  ... 
pmid:9783214 fatcat:dgjqc755gve2ljpxqpn45hfc74

Gamma rays as probe of fission and quasi-fission dynamics in the reaction 32S + 197Au near the Coulomb barrier

A Pulcini, E Vardaci, E Kozulin, M Ashaduzzaman, C Borcea, A Bracco, S Brambilla, S Calinescu, F Camera, M Ciemala, B de Canditiis, O Dorvaux (+19 others)
2018 Journal of Physics, Conference Series  
.; Canditiis, B. de; Dorvaux, O.; Harca, I. M.; Itkis, I.; Kirakosyan, V. V.; Knyazheva, G.; Kozulina, N.; Kolesov, I.  ...  .; La Rana, G.; Maj, A.; Matea, I.; Novikov, K.; Petrone, C.; Quero, D.; Rath, P.; Saveleva, E.; Schmitt, C.; Sposito, G.; Stezowski, O.; Trzaska, Wladyslaw; Wilson, J. Abstract.  ...  Figure 3 . 3 a) Multiplicity distributions for elastic and quasi-elastic channel (full triangles) and for fusion-fission channel (full circles); b) Average gamma multiplicity in coincidence with fission  ... 
doi:10.1088/1742-6596/1014/1/012013 fatcat:fmyjfuwd6jhd7m424r7miqmdly

Excited-state spectroscopy of single NV defects in diamond using optically detected magnetic resonance

P Neumann, R Kolesov, V Jacques, J Beck, J Tisler, A Batalov, L Rogers, N B Manson, G Balasubramanian, F Jelezko, J Wrachtrup
2009 New Journal of Physics  
As depicted in figure 4(A) , the ODMR spectrum shows a huge energy splitting between ESR lines, even at small magnetic field magnitude (B = 20 G).  ...  This effect is identical to the well-known photoluminescence dip occurring at B = 1028 G, when the m s = 0 and m s = −1 sublevels of the ground state are crossing.  ... 
doi:10.1088/1367-2630/11/1/013017 fatcat:nyoxfktckbff7gnms6ntylzpze

Characterization of non-metallic inclusions in corrosion -resistance nickel - based EP718 and 718 alloys by using electrolytic extraction method

Andrey Karasev, Ekaterina Alekseeva, Aleksey Lukianov, Pär G. Jönsson, S.S. Kolesov, R.V. Kizitov, A.B. Laptev, V.A. Polyansky, I.A. Golubev, A.A. Markov, A. Groysman, S. Webster (+10 others)
2019 E3S Web of Conferences  
Fig. 1 . 1 SEM images of NMI observed on film filter (a) and on metal surface (b) after electrolytic extraction.  ...  The weight and depth of the metal matrix layer dissolved during EE process were 0.081~0.093 g and 73~97 µm, respectively.  ... 
doi:10.1051/e3sconf/201912104004 fatcat:bmxfmapzr5evdbh3a5mywas2u4

Page 261 of National Union Catalog Vol. 25, Issue [page]

1958 National Union Catalog  
Kolesov, S G Anabio: mikroorgani Moskva ro recermdey 1959. 141 p. illus In Cyrillic characters. 1. Microbiology. I. Title. DNLM Kolesov, S G Bucyuriesanne Muxpooprann3Mos u 6ompenapatos.  ...  YxpainchKoMy B. yHisepcuterti B anes mae xostHa 1921.  ... 

Page 92 of Bibliography of Agriculture Vol. 30, Issue Index [page]

1966 Bibliography of Agriculture  
KOLESOV KOLESOV KOLESOVA N I KOLESOVA V I KOLEV G KOLEV K 61960 KOLEV KH OD KOLEV V KOLEVA M KOLEVA P KOLEY BN KOLFF G H VAN DER KOLGANOV K KOLHOOP K C 90848 KOLIN J KOLING S$ KOLISHCHUK V G KOLISNICHENKO  ...  KOBLITZ D KOBLITZ H 9193 KOBORI © 53005 75254 75255 KOBOSEV N I KOBR M J KOBRIGER G D KOBRIN B B KOBRITS G KOBRO J KOBRYN H KOBURGER J A 71431 KOBY*SKII G I KOBYL*SKII G I KOBYLKA 6 35657 35903 KOBYLSKII  ... 

Page 991 of Automation and Remote Control Vol. 36, Issue 6 [page]

1975 Automation and Remote Control  
x, ® € Xm Var=ImEGndrlae B;(9), B,(z))=8,,(9m Zmp)s-Atl des By(z))=Am(am z), and therefore VgeQ, hilS(q, z)]=8,,[hs (9), (z, g)], and bh, fA@, ]= Am [hy (q), x], Simce VreX, VgeQ, Xm condition 1 of Theorem  ...  Danilov and N, V, Kolesov, "Hardware monitoring of automata," Avtomat, i Telemekhan,, No, 11, 120-126 (1973). V. V.  ... 

Page 1337 of Mathematical Reviews Vol. , Issue 83c [page]

1983 Mathematical Reviews  
V. .... 30027 Kolesov, Yu.S. ...... 92080 Kratochvil,P. ....... 22005 Lagu,A.V. ......... 81106 Karabatsos,G. ...... 65098 Khrustalev,M.M. ... 49052 Kolesov, Yurif ........ Krauss, Eckehard .....  ...  See Kolesov, Yu. S. 47072, 90136 Lainiotis, Demetrios G. Karapetian, A.V. ..... 65282 Kolmogorov, A.N. ... Krauter, William .... 14030 93054 See Karapetyan, A.V.  ... 
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