X-ray LasersThe first in its field, this book is both an introduction to x-ray lasers and a how-to guide for specialists. It provides new entrants and others interested in the field with a comprehensive overview and describes useful examples of analysis and experiments as background and guidance for researchers |
Contents
Principles of Short Wavelength | 15 |
Analysis Techniques for XRay Gain in Plasmas | 54 |
Pumping Modes and Devices | 62 |
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absorption amplification analysis Angstrom units Appl atoms autoionization cavity cm² cm³ coherence collisional cross-section crystal described in Section device discussed in Section Doppler Doppler broadened efficiency electron density electron-collisional excitation enhanced example excitation pumping experiments factor fluorescence free-electron frequency gain coefficient gain medium gamma-ray laser graser harmonic Hence innershell intensity ionization Laboratory lasant laser beam laser transition laser wavelength lasing length limited Livermore measured medium mirrors mode N₁ nuclear opacity operation optical output parameter photoexcitation photoionization photon energy photoresist Phys population density population inversion possible Principal quantum pulse pumping power pumping rate R. C. Elton radiation rate coefficient ratio recombination pumping resonance scaling selenium shorter wavelengths shown in Fig spectral region stimulated emission Synchrotron Synchrotron Radiation Table target technique temperature tion transverse tunable typical upper upper-laser vacuum-uv velocity wiggler x-ray laser x-ray region z-pinch