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Advances in multi-photon processes and spectroscopy Volume 5 / edited by S.H. Lin.

EBSCOhost Academic eBook Collection (North America) Available online

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Format:
Book
Contributor:
Lin, Shantian.
Series:
Advances in Multi-Photon Processes and Spectroscopy
Advances in Multi-Photon Processes and Spectroscopy ; v.5
Language:
English
Subjects (All):
Spectrum analysis.
Laser spectroscopy.
Physical Description:
1 online resource (384 p.)
Place of Publication:
Singapore : World Scientific, c1989.
Language Note:
English
Summary:
In view of the rapid growth in both experimental and theoretical studies of multiphoton processes and multiphoton spectroscopy of atoms, ions and molecules in many interdisciplinary fields, an Advanced Series that contains review papers readable not only to active researchers in these areas but also to those who are not experts in the field but intend to enter the field is very necessary. This series attempts to serve this purpose. Each review article is written in a self-contained manner by the experts in the area so that the readers can grasp the knowledge in the area without too much prepar
Contents:
CONTENTS; PREFACE; LASER-INDUCED EXCITED ATOM DYNAMICS: STIMULATED, ELECTRON SHELVING AND ATOM-SURFACE INDUCED PROCESSES; Contents; 1. INTRODUCTION; 2. STIMULATED SPECTRA OF A THREE-LEVEL ATOM INTERACTING WITH A STRONG LASER FIELD; 2.1 The Model Hamiltonian; 2.2 Equations of Motion for the Green Functions; 2.3 Excitation Spectra (Quantized Laser Field); 2.3.1 Stimulated one-photon process.; 2.3.2 Stimulated three-photon processes.; 2.4 Stimulated Raman Spectra; 2.5 Classical Description of the Laser Field; 2.5.1 Stimulated one- and three-photon processes.; 2.5.2 Two-photon Raman spectra.
2.6 Summary(i) Stimulated one-photon process.; (ii) Stimulated three-photon process.; (iii) Stimulated two-photon process.; 3. STIMULATED SPECTRA OF A FOUR-LEVEL ATOM INTERACTING WITH A STRONG BICHROMATIC FIELD; 3.1 Excitation Spectra (Quantized Laser Fields); 3.1.1 Stimulated one-photon process.; 3.1.2 Stimulated three-photon process.; 3.1.3 Stimulated two-photon Raman process.; 3.2 Classical Description of the Laser Fields; 3.2.1 One-photon process.; 3.2.2 Three-photon processes.; 3.2.3 Two-photon Raman process.; 3.3 Summary
4. DYNAMICS OF EXCITED STATES OF TWO IDENTICAL ATOMS INTERACTING WITH STRONG LASER FIELDS4.1 The Model Hamiltonian; 4.2 Equations of Motion for the Green Functions; 4.3 Stimulated One-Photon Process; 4.3.1 Excitation spectra of the symmetric modes.; 4.3.2 Excitation spectra of the antisymmetric modes; 4.4 Stimulated Three-Photon Processes; 4.4.1 Excitation spectra of the symmetric modes.; 4.4.2 Excitation spectra of the antisymmetric modes.; 4.5 Summary; Stimulated one-photon spectra of the symmetric modes.; Stimulated three-photon spectra of the symmetric modes.
6.2.2 Radiative cooperative spectra of N adsorbed atoms.6.2.3 Nonradiative excitation spectra.; 6.2.4 Nonradiative cooperative spectra of N adsorbed atoms.; 6.3 Summary; 7. DYNAMICS OF ADSORBATES ON DIELECTRIC SURFACES; 7.1 Nonradiative Excitation Spectra; 7.2 Numerical Results; 7.3 Summary; 8. REFERENCES; Photoinduced Electron Transfer, Electron Photoejection and Related Phenomena in Solutions - Femtosecond ~ Nanosecond Laser Photolysis Studies; I. Introduction; II. Photoionization in Polar Solvent; II-1. Ionization Energy in the Liquid Phase
II-2. Monophotonic Ionization in Polar Solvents by the near-UV Excitation
Notes:
Description based upon print version of record.
Includes bibliographical references.
ISBN:
9789812798497
9812798498

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