TY - GEN
T1 - 2D photonic crystals deposited on polymer piezoelectric substrates - New kind of moems
AU - Bormashenko, Ed
AU - Pogreb, R.
AU - Stanevsky, O.
AU - Biton, Ya
AU - Bormashenko, Ye
AU - Streltsov, V.
AU - Socol, Ye
N1 - Funding Information:
The work has been supported by the Israel Ministry of Absorption. The authors are grateful to Professor M. Zinigrad and Professor Dan Davidov for their continuous support of our research activity. We thank Mrs. N. Litvak and Mr. Al. Shulzinger for SEM imaging of the samples. We thank Mr. Roy Ziblat for his generous help in spectral measurements and Mrs. Albina Musin for her help in the preparing of the paper. References and links [1] Bormashenko Ed., Pogreb R., Socol Y., Hakham Itzhaq M., Sutovski S., Sheshnev A., Bormashenko Ye., “Direct writing of cylindrical microlenses on polymer substrates”, IEEE International Conference on Sensors, Toronto, October, 2003. [2] Tuantranont A., Bright T., Zhang J., Zhang W., Neff J.A., Lee Y.C., “Optical beam steering using MEMS-controllable microlens array”, Sensors and Actuators A, 91: 363-372, 2001. [3] Leclerq J.L., Rojo-Romeo P., Seassal C., Moutte J., Letartre X., Viktorovitch P, “3D structuring of miltilayer suspended membranes including 2D photonic crystal structures”, Journal of Vacuum Science & Technology B (Microelectronic and Nanometer Structures), 21 (6): 2903-2906. [4] Leclerq J.L., Rojo-Romeo P., Seassal C., Moutte J., Letartre X., Viktorovitch P., “Switching devices with spatial and spectral resolution combining photonic crystals and MOEMS structures”, Journal of Lightwave Technology, 21(7): 1691-1699. [5] Yablonovitch E., “Photonic band-gap structures”, JOSA B, 10 (2): 283–295, 1993. [6] E. Yablonovith E., “Photonic Crystals”, Journal of Modern Optics, 41(2): 173–194, 1994. [7] Berger V., “From photonic band gaps to refractive index engineering,” Optical Materials, 11, 131–142, 1999. [8] J. D. Joannopoulos, R. D. Meade, J. N. Winn, Photonic Crystals (Princeton University Press, Princeton, 1995). [9] D. Maystre, “Photonic crystal diffraction gratings,” Optics Express, 8(3), 209–216, 2001.
PY - 2004
Y1 - 2004
N2 - Self-assembled polycarbonate films were deposited on polymer piezoelectric substrates under a fast dip-coating process. Ordered structures with micro- and nano-scaled holes dispersed in the polycarbonate matrix were obtained, demonstrating 2D hexagonal packaging. The process allows control of the hole size. Fabricated structures have a potential as 2D tunable photonic crystals. Bandgap formation in the near IR band was studied with a FTIR spectrometer. A distinct bandgap located in the vicinity of 1 μm was revealed. Integration of photonic bandgap structure with MOEMS was achieved.
AB - Self-assembled polycarbonate films were deposited on polymer piezoelectric substrates under a fast dip-coating process. Ordered structures with micro- and nano-scaled holes dispersed in the polycarbonate matrix were obtained, demonstrating 2D hexagonal packaging. The process allows control of the hole size. Fabricated structures have a potential as 2D tunable photonic crystals. Bandgap formation in the near IR band was studied with a FTIR spectrometer. A distinct bandgap located in the vicinity of 1 μm was revealed. Integration of photonic bandgap structure with MOEMS was achieved.
UR - http://www.scopus.com/inward/record.url?scp=27644507821&partnerID=8YFLogxK
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AN - SCOPUS:27644507821
SN - 0780387155
T3 - 11th IEEE International Conference on Electronics, Circuits and Systems, ICECS 2004
SP - 459
EP - 462
BT - 11th IEEE International Conference on Electronics, Circuits and Systems, ICECS 2004
T2 - 11th IEEE International Conference on Electronics, Circuits and Systems, ICECS 2004
Y2 - 13 December 2004 through 15 December 2004
ER -