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Lecture 2 Master Equations and Sources II
Lecture 3 Standard Methods of Analysis I
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Bloch sphere calculate classical stochastic coherent conditioned density operator conditioned mean photon correlation function defined degenerate parametric oscillator density operator described detector emitted equations of motion evolution example exclusive probability densities field amplitude Fock Fokker-Planck equation free field frequency given H. J. Carmichael Hamiltonian homodyne detection integral interaction interval laser lectures master equation mean photon number nonlinear normal obtained operator averages operator master equation optical bistability optical Bloch equations optical cavity output field pc(t photocurrent photoelectric detection photoelectron counting distribution photoelectron emissions photoemissive source photon emissions photon flux Phys Physics picture polarization quadrature phase quadrature phase amplitudes quantized field quantum fluctuations quantum mechanics quantum optics quantum trajectory approach quantum-classical correspondence radiated random resonance fluorescence right-hand side Sect semiclassical shot noise solution source field source master equation spectrum of squeezing squeezed light statistical superoperator theory thermal light tion two-state atom unravelling vacuum variance waiting-time distribution