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T J Drabik

Showing results (1-10 of 6) with videos related to

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Applied Optics|November 6, 2010
Coplanar refractive-diffractive doublets for optoelectronic integrated systemsZ Zhou, T J Drabik
Applied Optics|June 26, 2010
Silicon VLSI/ferroelectric liquid crystal technology for micropower optoelectronic computing devicesT J Drabik, M A Handschy
Applied Optics|November 15, 1986
Shift-connected SIMD array architectures for digital optical computing systems, with algorithms for numerical transforms and partial differential equationsT J Drabik, S H Lee
Optics Letters|September 18, 2009
Ferroelectric-liquid-crystal/silicon-integrated-circuit spatial light modulatorL K Cotter, T J Drabik, R J Dillon, et al.
Applied Optics|September 11, 2010
Phase stability of ferroelectric liquid crystals upon repeated switching and static temperature characteristicsN F Hartman, T K Gaylord, T J Drabik, et al.
Applied Optics|June 18, 2010
Comparison between electrical and free space optical interconnects for fine grain processor arrays based on interconnect density capabilitiesM R Feldman, C C Guest, T J Drabik, et al.
Pageof 1

Showing results (1-10 of 6) with videos related to

Sort By:
Pageof 1
Applied Optics|November 6, 2010
Coplanar refractive-diffractive doublets for optoelectronic integrated systemsZ Zhou, T J Drabik
Applied Optics|June 26, 2010
Silicon VLSI/ferroelectric liquid crystal technology for micropower optoelectronic computing devicesT J Drabik, M A Handschy
Applied Optics|November 15, 1986
Shift-connected SIMD array architectures for digital optical computing systems, with algorithms for numerical transforms and partial differential equationsT J Drabik, S H Lee
Optics Letters|September 18, 2009
Ferroelectric-liquid-crystal/silicon-integrated-circuit spatial light modulatorL K Cotter, T J Drabik, R J Dillon, et al.
Applied Optics|September 11, 2010
Phase stability of ferroelectric liquid crystals upon repeated switching and static temperature characteristicsN F Hartman, T K Gaylord, T J Drabik, et al.
Applied Optics|June 18, 2010
Comparison between electrical and free space optical interconnects for fine grain processor arrays based on interconnect density capabilitiesM R Feldman, C C Guest, T J Drabik, et al.
Pageof 1