Phase Conjugation of Laser EmissionNikolaĭ Gennadievich Basov This volume presents results from fundamental research on the phenomenon of phase conjugation of laser emission discovered at the Physics Institute of the Academy of Sciences during stimulated scattering in hypersound, and with four-wave interaction in a wavelength range from the visible through the mid-infrared. Fundamentally new optical designs and methods of controlling laser emission are proposed and tested experimentally on the basis of this effect. |
Other editions - View all
Common terms and phrases
achieved active medium amplifier amplitude approximately Basov C₁ cell characteristic CO2 laser CO2 laser emission coefficient conduction band configuration conjugation by four-wave correlation corresponding degenerate four-wave mixing depolarized distribution divergence E₁ electron emis energy excitation emission experimental four-wave mixing frequency gain increment high-power InAs increase InSb interaction interferometer investigation jugation KVANTOVAYA ELEKTRON Lebedev Physics Institute length light beams lightguide master oscillator monochromatic neodymium nonlinear medium nonlinear optical obtain optical parameters phase conjugation mirrors phase conjugation quality phase plate phase-conjugation mirrors plane components polarization pump beam pump components pump emission pump field pump wave pump-correlated reference waves reflection efficiency resonant reversed sample saturation scattered emission scheme semiconductors shown in Fig signal wave significantly solution spatially inhomogeneous spectral width stationary stimulated Brillouin scattering stimulated scattering Stokes components Stokes emission Stokes signal Stokes wave theoretical threshold tion transverse values wave vectors wavefront weak pump zero-threshold reflection Zubarev
Popular passages
Page ii - Volume 169 The Physical Effects in the Gravitational Field Black Holes, Edited by MA Markov Volume...
Page 4 - For this purpose in reading, the reference wave must be injected in the opposite direction with respect to the reference wave in recording.
Page 14 - Brillouin scattering the frequency shift of the Stokes wave depends on the scattering angle and is maximized in backscattering.
Page 1 - Presidium of the Academy of Sciences of the USSR and the Scientific Council of the Institute. The first editor-in-chief of the "Proceedings...