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Atoms in Intense Laser Fields by Professor C. J. Joachain, N. J. Kylstra, R. M. Potvliege

By Professor C. J. Joachain, N. J. Kylstra, R. M. Potvliege

Filling the necessity for a booklet bridging the impact of subject on X-ray radiation and the interplay of x-rays with plasmas, this monograph offers finished insurance of the subject. As such, it offers and explains such strong new X-ray resources as X-ray free-electron lasers, in addition to brief pulse interactions with solids, clusters, molecules, and plasmas, and X-ray topic interactions as a diagnostic software. both important for researchers and practitioners operating within the box "The improvement of lasers able to generating high-intensity pulses has opened a brand new quarter within the learn of light-matter interactions. The corresponding laser fields are robust adequate to compete with the Coulomb forces in controlling the dynamics of atomic structures and provides upward thrust to multiphoton procedures. This publication provides a unified account of this swiftly constructing box of physics. the 1st half describes the elemental phenomena happening in excessive laser-atom interactions and offers the elemental theoretical framework to research them. the second one half incorporates a specific dialogue of Floquet conception, the numerical integration of the wave equations and approximation equipment for the low- and high-frequency regimes. within the 3rd half, the most multiphoton tactics are mentioned: multiphoton ionization, excessive harmonic and attosecond pulse iteration, and laser-assisted electron-atom collisions. aimed toward graduate scholars in atomic, molecular and optical physics, the publication also will curiosity researchers engaged on laser interactions with matter"--  Read more... half I. uncomplicated techniques: 1. High-intensity laser-atom physics; 2. thought of laser-atom interactions -- half II. Theoretical equipment: three. Perturbation thought; four. Floquet thought; five. Numerical integration of the wave equations; 6. The low-frequency regime; 7. The high-frequency regime -- half III. Multiphoton Atomic Physics: eight. Multiphoton ionization; nine. Harmonic new release and attosecond pulses; 10. Laser-assisted electron-atom collisions

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