Publisher's Synopsis
The text Atomic, Molecular, and Optical Physics Handbook comprises a comprehensive reference source that unifies the entire fields of atomic, molecular, and optical physics, assembling the principal ideas, techniques and results of the field. First chapter focuses on atomic force microscopy in optical imaging. Second chapter deals with fluidic optical devices based on thermal lens effect. In third chapter, the nonlinear optical (NLO) properties of the doped xerogel film have been measured by the degenerated four wave mixing (DFWM) technique. In fourth chapter, the structure of low-n Rydberg states doped into supercritical fluids has been investigated in several atomic perturbers. An n-valued Coulombs Force Law, which leads directly to light quanta generating the atomic energy spectrum of hydrogen, has been presented in fifth chapter. Sixth chapter discusses atomic regular polyhedron electronic shell. A new approach on molecular beam depletion has been presented in seventh chapter. Dual conjugate adaptive optics prototype for wide field high resolution retinal imaging has been outlined in eighth chapter. Devices and techniques for sensorless adaptive optics have been described in ninth chapter. A unified approach to analyzing the anisoplanatism of adaptive optical systems has been focused in tenth chapter. Last chapter discusses on renovated quantum physics.