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Lorne A Whitehead

Showing results (1-10 of 16) with videos related to

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Applied Optics|February 12, 2014
Modified point spread function for efficient high dynamic range LED backlight capable of high uniformity, high contrast, and smooth gradientsJakob Emmel, Lorne A Whitehead
Applied Optics|November 13, 2013
Electrically controlled diffraction employing electrophoresis, supercapacitance, and total internal reflectionJason C Radel, Lorne A Whitehead
Applied Optics|April 9, 2005
Controlled frustration of total internal reflection by electrophoresis of pigment particlesMichele A Mossman, Lorne A Whitehead
Applied Optics|March 16, 2019
Graphene-based bidirectional radiative thermal transfer method for heat enginesAlireza Nojeh, George A Sawatzky, Lorne A Whitehead
Journal of Vision|April 23, 2025
Warm versus cool colors and their relation to color perceptionJake Manalansan, Lorne A Whitehead, Michael A Webster
Applied Optics|June 18, 2002
Electrical modulation of diffractive structuresVincent H Kwong, Michele A Mossman, Lorne A Whitehead
Applied Optics|February 13, 2004
Control of reflectance of liquid droplets by means of electrowettingVincent H Kwong, Michele A Mossman, Lorne A Whitehead
Electrophoresis|December 30, 2004
Novel electrophoresis mechanism based on synchronous alternating drag perturbationAndre Marziali, Joel Pel, Dan Bizzotto, et al.
Applied Optics|March 10, 2006
Control of reflection at an optical interface in the absence of total internal reflection for a retroreflective display applicationAnne H Webster, Michele A Mossman, Lorne A Whitehead
Applied Optics|September 5, 2002
Modulation of retroreflection by controlled frustration of total internal reflectionRobin J N Coope, Lorne A Whitehead, Andrzej Kotlicki
Pageof 2

Showing results (1-10 of 16) with videos related to

Sort By:
Pageof 2
Applied Optics|February 12, 2014
Modified point spread function for efficient high dynamic range LED backlight capable of high uniformity, high contrast, and smooth gradientsJakob Emmel, Lorne A Whitehead
Applied Optics|November 13, 2013
Electrically controlled diffraction employing electrophoresis, supercapacitance, and total internal reflectionJason C Radel, Lorne A Whitehead
Applied Optics|April 9, 2005
Controlled frustration of total internal reflection by electrophoresis of pigment particlesMichele A Mossman, Lorne A Whitehead
Applied Optics|March 16, 2019
Graphene-based bidirectional radiative thermal transfer method for heat enginesAlireza Nojeh, George A Sawatzky, Lorne A Whitehead
Journal of Vision|April 23, 2025
Warm versus cool colors and their relation to color perceptionJake Manalansan, Lorne A Whitehead, Michael A Webster
Applied Optics|June 18, 2002
Electrical modulation of diffractive structuresVincent H Kwong, Michele A Mossman, Lorne A Whitehead
Applied Optics|February 13, 2004
Control of reflectance of liquid droplets by means of electrowettingVincent H Kwong, Michele A Mossman, Lorne A Whitehead
Electrophoresis|December 30, 2004
Novel electrophoresis mechanism based on synchronous alternating drag perturbationAndre Marziali, Joel Pel, Dan Bizzotto, et al.
Applied Optics|March 10, 2006
Control of reflection at an optical interface in the absence of total internal reflection for a retroreflective display applicationAnne H Webster, Michele A Mossman, Lorne A Whitehead
Applied Optics|September 5, 2002
Modulation of retroreflection by controlled frustration of total internal reflectionRobin J N Coope, Lorne A Whitehead, Andrzej Kotlicki
Pageof 2