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A M Glass

Showing results (1-10 of 20) with videos related to

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Science (New York, N.Y.)|February 27, 1987
Optical materialsA M Glass
Science (New York, N.Y.)|November 9, 1984
Materials for optical information processingA M Glass
Applied Optics|May 7, 2010
Photorefractive four-wave mixing in GaAs using diode lasers operating at 1.3 micromJ Strait, A M Glass
Applied Optics|March 6, 2010
Generation of intense subnanosecond 0.58-0.80-microm pulses with a flashlamp-pumped dye laserT J Negran, A M Glass
Optics Letters|August 25, 2009
Optical absorption of small metal particles with adsorbed dye coatsH G Craighead, A M Glass
Applied Optics|May 22, 2010
Fundamental limit of the speed of photorefractive effect and its impact on device applications and material research: commentA M Glass, M B Klein, G C Valley
Optics Letters|September 12, 2009
Photochromic gratings in photorefractive materialsR B Bylsma, D H Olson, A M Glass
Optics Letters|September 16, 2009
Picosecond photorefractive response of GaAs:EL2, InP:Fe, and CdTe:VG C Valley, J Dubard, A L Smirl, et al.
Optics Letters|October 6, 2009
High-speed joint-transform optical image correlator using GaAs/AlGaAs semi-insulating multiple quantum wells and diode lasersA Partovi, A M Glass, T H Chiu, et al.
Optics Letters|August 21, 2009
Interaction of metal particles with adsorbed dye molecules: absorption and luminescenceA M Glass, P F Liao, J G Bergman, et al.
Pageof 2

Showing results (1-10 of 20) with videos related to

Sort By:
Pageof 2
Science (New York, N.Y.)|February 27, 1987
Optical materialsA M Glass
Science (New York, N.Y.)|November 9, 1984
Materials for optical information processingA M Glass
Applied Optics|May 7, 2010
Photorefractive four-wave mixing in GaAs using diode lasers operating at 1.3 micromJ Strait, A M Glass
Applied Optics|March 6, 2010
Generation of intense subnanosecond 0.58-0.80-microm pulses with a flashlamp-pumped dye laserT J Negran, A M Glass
Optics Letters|August 25, 2009
Optical absorption of small metal particles with adsorbed dye coatsH G Craighead, A M Glass
Applied Optics|May 22, 2010
Fundamental limit of the speed of photorefractive effect and its impact on device applications and material research: commentA M Glass, M B Klein, G C Valley
Optics Letters|September 12, 2009
Photochromic gratings in photorefractive materialsR B Bylsma, D H Olson, A M Glass
Optics Letters|September 16, 2009
Picosecond photorefractive response of GaAs:EL2, InP:Fe, and CdTe:VG C Valley, J Dubard, A L Smirl, et al.
Optics Letters|October 6, 2009
High-speed joint-transform optical image correlator using GaAs/AlGaAs semi-insulating multiple quantum wells and diode lasersA Partovi, A M Glass, T H Chiu, et al.
Optics Letters|August 21, 2009
Interaction of metal particles with adsorbed dye molecules: absorption and luminescenceA M Glass, P F Liao, J G Bergman, et al.
Pageof 2