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GENERAL CONCEPTS AND METHODS
The Quantized Free Radiation Field
Interaction Between Radiation and Matter
13 other sections not shown
amplification amplitude anti-Stokes approximation assumed atomic systems behavior bistability Brillouin scattering calculated classical coherent components coordinate correlation function crystal density operator dependence derived described differential equation dipole discussed dissipative system eigenstates eigenvalue electric field electronic emission energy ensemble equation of motion excitation expectation value experimental factor field strength fluctuation force fluorescence given Hamiltonian Heisenberg picture input intensity interaction operator inversion irradiation laser wave Lett light pulses line width linear matrix elements means measured medium mode molecules multiphoton nonlinear optical obtain occupation-number one-photon oscillator parameters particles phase phase-conjugate photon photon number Phys polaritons polarization amplitude processes propagation properties pump wave quantities quantization quantum quantum-theoretical radiation field Raman effect Raman scattering refractive index relations relaxation represents resonator right-hand side sample Section semiclassical signal solution spatial stimulated Raman Stokes wave susceptibility term tion transition probability two-level system two-photon absorption vibrational wave vector zero