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MAXWELLS EQUATIONS AND ELECTROMAGNETIC
CLASSICAL TREATMENT OF THE GENERATION
10 other sections not shown
absorbed absorption amplitude angle angular momentum anode approximately atom cavity Chapter classical coefficient component Compton scattering cross-section crystal decay density dependence detection detector diffraction direction discussed distance Doppler electric dipole electric field electromagnetic radiation electron emitted example excited field strength figure fluctuations frequency function given by Eq gives Hertzian dipole hologram illustrated in Fig incident intensity ionization kinetic energy laser beam length magnetic field magnitude Maxwell's equations medium mirrors mode molecules mutual coherence function number of photons operation optically oscillator phase photocathode photoelectron photomultiplier photons plane wave polarization population inversion position potential Poynting's vector produced propagation proportional pulse quantum radiation field radius reflection refractive index region resonance scintillator Section selection rules semi-conductor shown in Fig spatial coherence spontaneous emission stimulated emission surface temperature thermal transition transverse usually vector velocity wavefront wavelength width X-rays y-ray zero