Electro-optics
543. J.A. Reyes & A. Lakhtakia, 'Electrically controlled optical bandgap in a structurally chiral material,' Optics Communications, 259, 2006, 164 - 173.
551. A. Lakhtakia, 'Ambichiral, electro-optic, circular-polarization rejection filters: theory,' Physics Letters A, 354, 2006, 330 - 334.
552. A. Lakhtakia, 'Generalized Oseen transformation for and enhancement of Bragg characteristics of electro-optic structurally chiral materials,' Optics Communications, 261, 2006, 213 - 217.
556. A. Lakhtakia, 'Electrically tunable, ultranarrowband, circular-polarization rejection filters with
electro-optic structurally chiral materials,' Journal of the European Optical Society - Rapid Publications, 1, 2006, 06006.
561. A. Lakhtakia, 'Electrically switchable exhibition of circular Bragg phenomenon by an isotropic slab,' Microwave and Optical Technology Letters, 48, 2006, 2148 - 2153; corrections: 49, 2007, 250 - 251.
562. J.A. Reyes & A. Lakhtakia, 'Electrically controlled reflection and transmission of obliquely incident light by structurally chiral materials,' Optics Communications, 266, 2006, 565 - 573.
565. A. Lakhtakia, 'Narrowband and ultranarrowband filters with electro-optic structurally chiral materials,' Asian Journal of Physics, 15, 2006, 275 - 282.
573. J.A. Reyes & A. Lakhtakia, 'Optics of electrically controlled structurally chiral material with periodic transverse perturbation for polarization-universal bandgaps,' Optics Communications, 270, 2007, 51 - 57.
576. A. Lakhtakia & T.G. Mackay, 'Electrical control of the linear optical properties of particulate composite materials,' Proceedings of the Royal Society of London A, 463, 2007, 583 - 592.
586. T.G. Mackay & A. Lakhtakia, 'Scattering loss in electro-optic particulate composite materials,' Journal of Applied Physics, 101, 2007, 083523.
608. S.R. Nelatury, J.A. Polo Jr., & A. Lakhtakia, 'Electrical control of surface-wave propagation at the planar interface of a linear electro-optic material and an isotropic dielectric material,' Electromagnetics, 28, 2008, 162 - 174.
613. P.K. Choudhury & A. Lakhtakia, 'The future of
optoelectronics technology,' Asian Journal of Physics, 17, 2008, 181 - 183.
615. M. Dixit & A. Lakhtakia, 'Electrically controlled Bragg resonances of an ambichiral electro-optic structure: oblique incidence,' Asian Journal of Physics, 17, 2008, 213 - 223.
616. A. Lakhtakia & J.A. Reyes, 'Theory of electrically controlled exhibition of circular Bragg phenomenon by an obliquely excited structurally chiral material -- Part 1: Axial dc electric field,' Optik, 119, 2008, 253 - 268.
617. A. Lakhtakia & J.A. Reyes, 'Theory of electrically controlled exhibition of circular Bragg phenomenon by an obliquely excited structurally chiral material -- Part 2: Arbitrary dc electric field,' Optik, 119, 2008, 269 - 275.
622. S.R. Nelatury, J.A. Polo, Jr. & A. Lakhtakia, 'On widening the angular existence domain for Dyakonov surface waves using the Pockels effect,' Microwave and Optical Technology Letters, 50, 2008, 2360 - 2362.
626. M. Dixit & A. Lakhtakia, 'Selection strategy for circular-polarization-sensitive rejection characteristics of electro-optic ambichiral Reusch piles,' Optics Communications, 281, 2008, 4812 - 4823.
705. J.A. Polo Jr. & A. Lakhtakia, 'Dyakonov-Tamm waves guided by the planar interface of an isotropic dielectric material and an electro-optic ambichiral Reusch pile,' Journal of the Optical Society of America B, 28, 2011, 567 - 576.
Updated on: April 26, 2011