Evaluation of microfluidic channels with optical coherence tomography
release_ypnkcptaebedzjp5weyofmy3a4
by
J. Czajkowski,
T. Prykäri,
E. Alarousu,
J. Lauri,
R. Myllylä
References
NOTE: currently batch computed and may include additional references sources, or be missing recent changes, compared to entity reference list.| Showing 1 - 24 of 24 references (in 91ms) | ||
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[b0]via grobid |
Whitesides G. M., "The origins and the future of microfluidics", Nature, Vol 442, 368-373 (2006).
| |
[b1]via fuzzy |
Fabrication of embedded microvalve on PMMA microfluidic devices through surface functionalization
A. G. G. Toh, Z.F. Wang, S.H. Ng 2008 2008 Symposium on Design, Test, Integration and Packaging of MEMS/MOEMS unpublished doi:10.1109/dtip.2008.4752998 |
web.archive.org
[PDF]
|
[b2]via grobid |
Chien R-D., "Hot embossing of microfluidic platform", Int. Commun. Heat Mass 33, 645-653 (2006).
| |
[b3]via grobid |
Ng S. H., Yeo L. P., and Wang Z. F., "Investigation on hot roller embossing process", SIMTech Tech. Rep. 10(1), 50-54 (2009).
| |
[b4]via grobid |
Hardt D., Ganesan B., Dirckx M., Shoji G., Thaker K., and Qi W., "Process Variability in Micro- Embossing", IMST report, Massachusetts Institute of Technology, 2005
| |
[b5]via grobid |
Shilpiekandula V., Burns D.J., El Rifai K., Youcef-Toumi K., Shiguang L., Reading I, Yoon S.F., "Metrology of Microfluidic Devices: A Review", Proc. 1st Int. Conf. Multi-material Micro Manufacture, 49/ICOMM2006 (2006).
| |
[b6]via grobid |
Huang D., Swanson E. A., Lin C. P., Schuman J. S., Stinson W. G., Chang W., Hee M. R., Flotte T., Gregory K., and Puliafito C. A., "Optical Coherence Tomography", Science 254, 1178-1181 (1991).
| |
[b7]via grobid |
Alarousu E., Krehut L., Prykäri T., and Myllylä R., "Study on the use of optical coherence tomography in measurements of paper properties", Meas. Sci. Technol. 16, 1131-1137 (2005).
| |
[b8]via grobid |
Alarousu E., "Low coherence interferometry and optical coherence tomography in paper measurements", Dr. Thesis, Faculty of Technology, University of Oulu, Oulu (2006).
| |
[b9]via grobid |
Prykäri T., Tuominen M., Alarousu E., Czajkowski J., and Myllylä R., "Investigating coating layer of extrusion coated paper by Optical Coherence Tomography", Proc. 2nd Int. Top. Meet. Optical Sensing and Artificial Vision -OSAV'2008, 410-417 (2008).
| |
[b10]via grobid |
Prykäri T., Alarousu E., Kuivaniemi J., Czajkowski J., and Myllylä R.:"Ultra-high resolution optical co- herence tomography in paper characterization", Proc. 2nd Int. Top. Meet. Optical Sensing and Artificial Vision -OSAV'2008, 111-117 (2008).
| |
[b11]via grobid |
Czajkowski J., "Design and development of interferometer for ultra-high resolution optical coherence to- mography system", M. Sc. Thesis, Faculty of Microsystem Electronics and Photonics, Wroclaw University of Technology, Wroclaw (2008).
| |
[b12]via grobid |
Czajkowski J., Prykäri T., Alarousu E., Fabritius T., and Myllylä R.:"Ultra-high resolution optical coherence tomography as a method of quality inspection for printed electronics encapsulation", Northern Optics 2009 Conference: Program and book of abstracts, 113 (2009).
| |
[b13]via fuzzy |
Optical coherence tomography as an accurate inspection and quality evaluation technique in paper industry
Tuukka Prykäri, Jakub Czajkowski, Erkki Alarousu, Risto Myllylä 2010 Optical Review doi:10.1007/s10043-010-0039-y | |
[b14]via grobid |
Alarousu E., Prykäri T., Palosaari J., and Myllylä R., "Ti:Sapphire Based Laser Source for Ultra-High Resolution Optical Coherence Tomography Imaging of Paper", Proc. 5th ODIMAP , 210-215 (2006).
| |
[b15]via fuzzy |
Optical coherence tomography as a method of quality inspection for printed electronics products
Jakub Czajkowski, Tuukka Prykäri, Erkki Alarousu, Jaakko Palosaari, Risto Myllylä 2010 Optical Review doi:10.1007/s10043-010-0045-0 | |
[b16]via grobid |
Stifter D., "Beyond biomedicine: a review of alternative applications and developments for optical coherence tomography", Appl. Phys. B 88, 337-357 (2007).
| |
[b17]via grobid |
VTT Centre for Printed Intelligence: Annual report (2009).
| |
[b18]via fuzzy |
Application of LabVIEW: Complex Software Controlling of System for Optical Coherence Tomography
P. Hosek, T. Prykäri, E. Alarousu, R. Myllylä 2009 Journal of the Association for Laboratory Automation doi:10.1016/j.jala.2008.05.007 | |
[b19]via grobid |
Lankton S., Nain D., Yezzi A., and Tannenbaum A., "Hybrid geodesic region-based curve evolutions for image segmentation", Proc. SPIE, Vol. 6510, 65104U (2007)
| |
[b20]via fuzzy |
Anterior segment imaging with Spectral OCT system using a high-speed CMOS camera
Ireneusz Grulkowski, Michalina Gora, Maciej Szkulmowski, Iwona Gorczynska, Daniel Szlag, Susana Marcos, Andrzej Kowalczyk, Maciej Wojtkowski 2009 Optics Express doi:10.1364/oe.17.004842 pmid:19293916 |
web.archive.org
[PDF]
|
[b21]via grobid |
Huber R., Adler D. C., and Fujimoto J. G., "Buffered Fourier domain mode locking: unidirectional swept laser sources for optical coherence tomography imaging at 370,000 lines/s", Opt. Lett. 31(20), 2975-2977 (2006).
| |
[b22]via grobid |
Park Y., Ahn T-J., Kieffer J-C., and Azaña J., "Optical frequency domain reflectometry based on real-time Fourier transformation", Opt. Express 15(8), 4597-4616 (2007).
| |
[b23]via grobid |
Moon S., and Kim D. Y., "Ultra-high-speed optical coherence tomography with a stretched pulse supercon- tinuum source", Opt. Express 14(24), 11575-11584 (2006).
| |