Linear adaptive interferometers via diffusion recording in cubic photorefractive crystals
I Rossomakhin, S Stepanov - Optics communications, 1991 - Elsevier
Linear adaptive interferometers using diffusion holographic recording in cubic PRCs are
proposed and experimentally demonstrated for BTO. These devices are designed for linear …
proposed and experimentally demonstrated for BTO. These devices are designed for linear …
Second-order electrogyration effect in BSO crystal
MA Guerrero-V, JE Rueda-P - Applied Physics B, 2024 - Springer
Using a non-holographic optical setup, we employed a Mueller–Stokes polarimeter to
measure both the linear electro-optic and second-order electrogyration effects. The second …
measure both the linear electro-optic and second-order electrogyration effects. The second …
Orientational dependence of photorefractive two-beam coupling in InP: Fe
J Strait, JD Reed, NV Kukhtarev - Optics letters, 1990 - opg.optica.org
We present the theory for photorefractive two-beam coupling without optical activity in cubic
crystals rotated around the [110] axis. We also describe two-beam coupling experiments in …
crystals rotated around the [110] axis. We also describe two-beam coupling experiments in …
Photorefractive two-wave mixing in semiconductors of the 4¯3m space group in general spatial orientation
HJ Eichler, Y Ding, B Smandek - Physical Review A, 1995 - APS
The photorefractive two-wave mixing gain coefficient Γ of GaAs: Cr and InP: Fe, cut with
different crystallographic orientations, was determined using a cw Nd: YAG (neodymium …
different crystallographic orientations, was determined using a cw Nd: YAG (neodymium …
Control of photorefractive space-charge field and its deflection application in Mn-doped KTa1− x Nb x O3 crystal
Y Wang, P Tan, Z Zhou, X Huang, C Hu… - New Journal of …, 2021 - iopscience.iop.org
The photorefractive effect is an effective way of achieving control of a beam by inducing a
space-charge field and controlling the distribution of the refractive index. Herein, the one …
space-charge field and controlling the distribution of the refractive index. Herein, the one …
Polarization properties of transmission and diffraction in BSO—a unified analysis
JR Goff - JOSA B, 1995 - opg.optica.org
The evolution of polarization in holographically coupled beams traversing bismuth silicon
oxide (BSO) in the E?(1¯ 10) configuration is analyzed. The phenomena of electrical …
oxide (BSO) in the E?(1¯ 10) configuration is analyzed. The phenomena of electrical …
Direct measurement of the electrogyratory effect in bismuth silicon oxide
TJ Tayag, TE Batchman, JJ Sluss Jr - Applied optics, 1992 - opg.optica.org
A direct measurement of the electrogyratory effect in bismuth silicon oxide is performed at
wavelengths of 633, 543, and 442 nm. We experimentally measured the electrogyratory …
wavelengths of 633, 543, and 442 nm. We experimentally measured the electrogyratory …
Acoustogyration diffraction of optical waves: case of SiO2 and TeO2 crystals
IY Martynyuk-Lototska, OG Mys, SV Akimov… - Opto-Electronics …, 2010 - Springer
Interaction of acoustic and light waves with accounting for elastooptic and elastogyration
effects is theoretically described. Collinear acoustogyration diffraction in quartz and …
effects is theoretically described. Collinear acoustogyration diffraction in quartz and …
[PDF][PDF] On the acoustogyration diffraction of light
Interaction of acoustic and light waves with accounting of elastooptic and elastogyration
effects has been theoretically described. Collinear acoustogyration (AG) diffraction in the …
effects has been theoretically described. Collinear acoustogyration (AG) diffraction in the …
Comment on ''New nonphotorefractive mechanism for two-beam coupling in a crystallographic-cut photorefractive crystal''
SI Stepanov - Physical review letters, 1990 - APS
Phys. Rev. Lett. 65, 935 (1990) - Comment on ``New nonphotorefractive mechanism for two-beam
coupling in a crystallographic-cut photorefractive crystal'' Skip to Main Content APS Logo …
coupling in a crystallographic-cut photorefractive crystal'' Skip to Main Content APS Logo …