Laser Noise: 5-6 November 1990, Boston, MassachusettsRajarshi Roy |
Contents
LASER NOISE IN ATOM FIELD INTERACTIONS | 21 |
FUNDAMENTAL STUDIES OF LASER FLUCTUATIONS | 81 |
LASER NOISE REDUCTION | 171 |
Copyright | |
2 other sections not shown
Common terms and phrases
approximation bandwidth calculated chaotic coefficient coherent correlation function corresponding coupling curve depends detector deterministic detuning distribution dynamics effect electric field experimental external cavity field amplitude Figure fluorescence Fokker-Planck equation gain Gaussian Hanle Hanle effect IEEE intensity fluctuations interaction Langevin equations laser beam laser cavity laser field laser noise laser operating lasing lasing threshold Lett linear Lorentzian measurements modulation noise sources nonlinear obtained optical feedback output parameter peak phase diffusion phase fluctuations phase jump photodiode photon photon number Phys polarization PT-2 signal pulses pump noise Quantum Electron quantum noise Rabi frequency random rate equations reduced regime relaxation oscillations resonator Ring Laser sample saturation self-pulsations semiconductor lasers shot noise shown solution spectral density spectrum spontaneous emission spontaneous emission noise stability stationary statistics stochastic techniques theory threshold transient transition two-level atom unstable values variables width zero