The Laser and Its Applications in Science, Technology, and Medicine |
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Page 46
... separation -1.4 -1.6- -1.8 -2.0 -2.2 -2.4 R IR 2 3 Internuclear separation R ( a ) ( c ) ( b ) Fig . 2.12 ( a ) Total electronic energy versus internuclear separation for the ground state of the H2 molecule . ( b ) Variation in the ...
... separation -1.4 -1.6- -1.8 -2.0 -2.2 -2.4 R IR 2 3 Internuclear separation R ( a ) ( c ) ( b ) Fig . 2.12 ( a ) Total electronic energy versus internuclear separation for the ground state of the H2 molecule . ( b ) Variation in the ...
Page 255
... separation methods for uranium . Researchers at the Los Alamos National Laboratories are currently investigating the two - step decomposition of UF6 for isotope separation . An infrared photon ( near 16 um ) is used to produce selective ...
... separation methods for uranium . Researchers at the Los Alamos National Laboratories are currently investigating the two - step decomposition of UF6 for isotope separation . An infrared photon ( near 16 um ) is used to produce selective ...
Page 266
... separation factors can exceed 1000 for the europium separation from holmium ( Ho ) ; the quantum yield for separation in the Eu / Ho case approaches 5 % . The separation of europium is just an illustration of the quite successful Fig ...
... separation factors can exceed 1000 for the europium separation from holmium ( Ho ) ; the quantum yield for separation in the Eu / Ho case approaches 5 % . The separation of europium is just an illustration of the quite successful Fig ...
Contents
THE CHARACTERISTICS OF LASER LIGHT | 1 |
STATES OF ATOMS AND MOLECULES | 28 |
PRINCIPLES OF LASER ACTION | 66 |
7 other sections not shown
Common terms and phrases
absorption applications argon atom or molecule band cavity cell Chapter CO2 laser coefficient coherence collision components cross section crystal curve diagram diatomic molecules difference droplets dye laser electric field electronic energy emitted energy levels etalon example excited Figure fluorescence frequency given illustrated in Fig impurities intensity ion laser irradiation isotopes laser beam laser operation laser output laser pulse laser transitions lifetime light wave line width material measurement membrane mirror mode molecular orbitals N₂ N2-CO2 laser Nd:YAG laser nuclear Nuclear potential energy nuclei occurs optical oscillator particles phase photodeposition photon polarization population inversion potential energy probability density pumping quantum mechanics quantum number radiation radiative Raman scattering Rayleigh scattering reaction region resonator ruby laser schematic selective semiconductor shown in Fig silicon sources spatial species spectrum spontaneous emission stimulated emission surface surgery techniques temperature tion transverse transverse mode tunable vibrational energy wavelength welding