Photovoltaic and Photo-refractive Effects in Noncentrosymmetric MaterialsCRC Press, 28. maj 1992 - 264 sider A technical treatment of the photovoltaic effect, one of the causes of photorefraction, which itself is used in holography, beam amplification and correction, wavefront reversals, and other fields. Focuses on the effect in ferro- and piezoelectric crystals. Translated from the Russian. Annotation copyrighted by Book News, Inc., Portland, OR |
Indhold
PHENOMENOLOGICAL DESCRIPTION | 5 |
The magnetophotovoltaic effect | 37 |
PRINCIPLES OF THE MICROSCOPIC | 43 |
Basic kinetictheory formulas for a medium lacking | 55 |
5 | 69 |
6 | 76 |
The intraband | 85 |
Hop mechanism | 93 |
Photoinduced scattering | 160 |
1 | 168 |
ANOMALOUS PHOTOINDUCED | 174 |
Charge transfer in a lightinduced grating | 182 |
PHENOMENA RELATED TO | 189 |
Relaxation currents | 192 |
Even electrical and thermal conductivities | 199 |
The surface photovoltaic effect | 213 |
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Almindelige termer og sætninger
2E levels absorption anisotropy asymmetry asymmetry parameter axis B. I. Sturman ballistic band band-band transitions beam calculations carrier centers Chapter characteristic circular PVE cm/V collision integral component conduction band conductivity consider corresponds CPVE difference diffusion distribution effect electron energy Equation external field Ferroelectrics FIGURE formulas four-wave mixing frequency GaAs grating hole holographic impurity increases intensity interaction kinetic LiNbO3 LiNbO3:Fe linear PVE LiTaO LPVE mean free path measurements momentum Moscow Nauka nonlinear nonlinear optical nonlocal response observed occur optical phenomenological phonons photoconductivity photoexcitation photoinduced photorefractive photorefractive effect photovoltaic photovoltaic effect Phys piezoelectric Pis'ma v ZhETF PR crystal pyroelectric recombination refractive-index relaxation Russian scattering shift shows spatially oscillating specimen stationary Tela temperature tensor Teor theory thermalized transfer Tverd V. I. Belinicher V. M. Fridkin V/cm valency band vector wave wave vector
Populære passager
Side 234 - D. von der Linde, AM Glass and KF Rodgers, Appl. Phys. Lett. 25 155-157 (1974).