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Perspectives in theoretical physics / Thomas F. George, Renat R. Letfullin, and Guoping Zhang, editors.

Contributor(s): Material type: TextTextSeries: Physics research and technologyPublisher: New York : Nova Science Publishers, c2011Description: 1 online resourceContent type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 9781624176111
  • 1624176119
Subject(s): Genre/Form: Additional physical formats: Print version:: Perspectives in theoretical physicsDDC classification:
  • 530.1 22
LOC classification:
  • QC20.5
Online resources:
Contents:
PERSPECTIVES IN THEORETICAL PHYSICS; LIBRARY OF CONGRESS CATALOGING-IN-PUBLICATION DATA; CONTENTS; PREFACE; Chapter 1: MATTER-DENSITY DISTRIBUTION IN DEUTERONAND DIFFRACTION DEUTERON-NUCLEUS INTERACTION; Abstract; 1. Introduction; 2. Deuteron Wave Functions and Form Factors; 3. Differential Cross Section of Elastic Scattering; 4. Integrated Cross Sections of Various Processes of Diffraction Deuteron-Nucleus Interaction; 5. Discussion; Acknowledgment; References.
Chapter 2: STUDY OF AMPLIFICATION WITHOUT INVERSION IN H2 MOLECULE: EFFECT OF HOMOGENEOUS AND INHOMOGENEOUS BROADENING IN THREE LEVEL L SYSTEM CONSIDERING BIDIRECTIONAL PUMPINGAbstract; 1. Introduction; 2. Theory; 3. Schemes; 4. Results and Discussions; 4.1. Gain and Absorption for the Closed System Considering UnidirectionalPumping; 4.2. Gain and Absorption for the Closed System Considering BidirectionalPumping; 4.3. Gain Profile Considering Total Spontaneous Decay Width; 4.4. Gain Profile Considering Doppler Broadening; 5. Conclusion; Acknowledgement; References.
Chapter 3: AMPLIFICATION WITHOUT INVERSION AND ABSORPTION WITH INVERSION IN H2 MOLECULES: A DRESSED-STATE PICTURE OF A COHERENTLY COUPLED THREE LEVEL L SYSTEMAbstract; 1. Introduction; 2. Theory; 2.1. Hamiltonian And Master Equation; 2.2. Dressed States; 2.3. Derivation of the Dressed-State Density Matrix Elements in Termsof the Bare-State Density Matrix Elements and Vice-versa; 2.4. Equation of Motion for the Density-Matrix Elementsin the Dressed-State Basis; 3. Schemes; 4. Results and Discussions; 4.1. Temporal Dependence of the Populations and Coherencesin the Dressed-State Basis.
4.2. Temporal Dependence of the Populations and Coherences in the Dressed-State Basis Considering Total Spontaneous Decay Width and Doppler Decay Width4.3. Dependence of Dressed State Populations and Coherences on the Relative Magnitude of Probe Field and Coherent Field Rabi Frequencies; 5. Conclusion; Acknowledgment; References; Chapter 4: SPECTRA AND BOUND STATES OF THE ENERGY OPERATOR OF A TWO-MAGNON SYSTEM IN A NON-HEISENBERG FERROMAGNET WITH SPINS=3/2 AND NEAREST-NEIGHBOR INTERACTIONS; Abstract; References.
Chapter 5: MODEL-BASED OPTIMIZATION OF THE GROWTH PROCESS PARAMETERS FOR A SILICON SHEET GROWN IN A VACUUM BY THE EDGE-DEFINED FILM-FED GROWTH METHODABSTRACT; 1. INTRODUCTION; 2. MATHEMATICAL MODEL; 3. NUMERICAL RESULTS; CONCLUSIONS; REFERENCES; Chapter 6: FIBRE BUNDLE FORMULATION OF RELATIVISTIC QUANTUM MECHANICS II: COVARIANT APPROACH; Abstract; 1. Introduction; 2. Dirac equation; 3. Other relativistic wave equations; 4. Propagators and evolution transports or operators; 4.1. Green functions (review); 4.2. Nonrelativistic case (Schr odinger equation); 4.3. Dirac equation.
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Includes bibliographical references and index.

Description based on print version record.

English.

PERSPECTIVES IN THEORETICAL PHYSICS; LIBRARY OF CONGRESS CATALOGING-IN-PUBLICATION DATA; CONTENTS; PREFACE; Chapter 1: MATTER-DENSITY DISTRIBUTION IN DEUTERONAND DIFFRACTION DEUTERON-NUCLEUS INTERACTION; Abstract; 1. Introduction; 2. Deuteron Wave Functions and Form Factors; 3. Differential Cross Section of Elastic Scattering; 4. Integrated Cross Sections of Various Processes of Diffraction Deuteron-Nucleus Interaction; 5. Discussion; Acknowledgment; References.

Chapter 2: STUDY OF AMPLIFICATION WITHOUT INVERSION IN H2 MOLECULE: EFFECT OF HOMOGENEOUS AND INHOMOGENEOUS BROADENING IN THREE LEVEL L SYSTEM CONSIDERING BIDIRECTIONAL PUMPINGAbstract; 1. Introduction; 2. Theory; 3. Schemes; 4. Results and Discussions; 4.1. Gain and Absorption for the Closed System Considering UnidirectionalPumping; 4.2. Gain and Absorption for the Closed System Considering BidirectionalPumping; 4.3. Gain Profile Considering Total Spontaneous Decay Width; 4.4. Gain Profile Considering Doppler Broadening; 5. Conclusion; Acknowledgement; References.

Chapter 3: AMPLIFICATION WITHOUT INVERSION AND ABSORPTION WITH INVERSION IN H2 MOLECULES: A DRESSED-STATE PICTURE OF A COHERENTLY COUPLED THREE LEVEL L SYSTEMAbstract; 1. Introduction; 2. Theory; 2.1. Hamiltonian And Master Equation; 2.2. Dressed States; 2.3. Derivation of the Dressed-State Density Matrix Elements in Termsof the Bare-State Density Matrix Elements and Vice-versa; 2.4. Equation of Motion for the Density-Matrix Elementsin the Dressed-State Basis; 3. Schemes; 4. Results and Discussions; 4.1. Temporal Dependence of the Populations and Coherencesin the Dressed-State Basis.

4.2. Temporal Dependence of the Populations and Coherences in the Dressed-State Basis Considering Total Spontaneous Decay Width and Doppler Decay Width4.3. Dependence of Dressed State Populations and Coherences on the Relative Magnitude of Probe Field and Coherent Field Rabi Frequencies; 5. Conclusion; Acknowledgment; References; Chapter 4: SPECTRA AND BOUND STATES OF THE ENERGY OPERATOR OF A TWO-MAGNON SYSTEM IN A NON-HEISENBERG FERROMAGNET WITH SPINS=3/2 AND NEAREST-NEIGHBOR INTERACTIONS; Abstract; References.

Chapter 5: MODEL-BASED OPTIMIZATION OF THE GROWTH PROCESS PARAMETERS FOR A SILICON SHEET GROWN IN A VACUUM BY THE EDGE-DEFINED FILM-FED GROWTH METHODABSTRACT; 1. INTRODUCTION; 2. MATHEMATICAL MODEL; 3. NUMERICAL RESULTS; CONCLUSIONS; REFERENCES; Chapter 6: FIBRE BUNDLE FORMULATION OF RELATIVISTIC QUANTUM MECHANICS II: COVARIANT APPROACH; Abstract; 1. Introduction; 2. Dirac equation; 3. Other relativistic wave equations; 4. Propagators and evolution transports or operators; 4.1. Green functions (review); 4.2. Nonrelativistic case (Schr odinger equation); 4.3. Dirac equation.

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