Computer Simulation in Nonlinear Optics: 27 June-4 July 1993, Moscow-Nizhny NovgorodVladimir L. Derbov, Sergey K. Potapov |
Contents
Spatial solitary waves solitons and vortices 209802 | 13 |
Injectioninduced instabilities and local gain modification in VCSELS 209803 | 24 |
nontrivial induced lenses | 36 |
Copyright | |
11 other sections not shown
Common terms and phrases
amplitude application atomic beam calculated carrier cavity coefficients coherent complex consider corresponding coupling defined delay dependence describe distribution dynamical effects emission spectrum energy equations evolution example excitation experimental experiments expression external field Figure frequency function gain geometric given Hamiltonian increased induced initial injection input integral intensity interaction laser length Lett light linear magnetic matrix means measured medium method mode motion nonlinear numerical observation obtained operator optical oscillations parameters pattern peak periodic phase Phys Physics plane polarization population positive present probability probe problem propagation pulse pump quantum quantum mechanics radiation REFERENCES refraction regime resonant Russia scheme seen shown shows simulation solitons solution solve spatial spectra spectrum surface symmetry takes theoretical theory transformation transition transverse VCSEL vector wave