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Dynamics During Spectroscopic Transitions

Basic Concepts

  • Textbook
  • © 1995

Overview

Editors:
  1. E. Lippert

    1. Sonthofen, Germany

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  2. J. D. Macomber

    1. Concord, USA

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Table of contents (13 chapters)

  1. Front Matter

    Pages I-XXV
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  2. Well-known Principles

    1. Front Matter

      Pages 1-1
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    2. Introduction

      • J. D. Macomber
      Pages 3-25

    3. Elementary Quantum Theory

      • J. D. Macomber
      Pages 26-50

    4. Elementary Electromagnetic Theory

      • J. D. Macomber
      Pages 51-78

    5. Interaction of Radiation and Matter

      • J. D. Macomber
      Pages 79-117

  3. Quantum Statistics

    1. Front Matter

      Pages 119-119
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    2. Ensembles of Radiating Systems

      • J. D. Macomber
      Pages 121-147

    3. Relaxation Processes and Coherent Dissipative Structures

      • E. Brändas
      Pages 148-193

    4. Applications of CSM Theory

      • E. Brändas
      Pages 194-242

  4. Gyrating Dipole Moments

    1. Front Matter

      Pages 243-243
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    2. Basic Principles of Magnetic Resonance

      • J. D. Macomber
      Pages 245-304

    3. Spin Dynamics and Radical Reactions

      • M. Goez
      Pages 305-357

    4. Generalization of the Gyroscopic Model

      • J. D. Macomber
      Pages 358-397

  5. Applications of LASER and SR Techniques

    1. Front Matter

      Pages 399-399
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    2. Stimulated Scattering: Third Order Processes

      • M. Pfeiffer, A. Lau
      Pages 401-455

    3. Transient Grating Spectroscopy

      • F.-W. Deeg
      Pages 456-505

    4. Synchrotron Radiation and Free Electron Lasers

      • M. Watanabe, G. Isoyama
      Pages 506-568

  6. Back Matter

    Pages 569-580
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Keywords

About this book

"How does a photon get into an atom?" This question puzzled not only leading scientists, e.g. Schrödinger and Heisenberg. It is still asked by students. And it is, indeed, a key question of quantum mechanics.
James D. Macomber's book was the first to provide a didactic and unified approach to the answer. It has been updated with recent experimental results and modern theoretical interpretations, including quantum correlation effects in condensed matter, four-wave mixing and synchrotron radiation . The book has been written for final year undergraduate students in Chemistry and Physics. It provides an understanding for similarities among the spectroscopic methods, and is stimulating to read.

Editors and Affiliations

  • Sonthofen, Germany

    E. Lippert

  • Concord, USA

    J. D. Macomber

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