The Resource Advances in atomic, molecular, and optical physics, Volume 60, edited by E. Arimondo, P.R. Berman, C.C. Lin, (electronic resource )

Advances in atomic, molecular, and optical physics, Volume 60, edited by E. Arimondo, P.R. Berman, C.C. Lin, (electronic resource )

Label
Advances in atomic, molecular, and optical physics, Volume 60
Title
Advances in atomic, molecular, and optical physics
Title number
Volume 60
Statement of responsibility
edited by E. Arimondo, P.R. Berman, C.C. Lin
Contributor
Subject
Genre
Language
  • eng
  • eng
Summary
Advances in Atomic, Molecular, and Optical Physics publishes reviews of recent developments in a field which is in a state of rapid growth, as new experimental and theoretical techniques are used on many old and new problems. Topics covered include related applied areas, such as atmospheric science, astrophysics, surface physics and laser physics. Articles are written by distinguished experts, and contain both relevant review material and detailed descriptions of important recent developments. International experts Comprehensive articles New developments
Is Subseries of
Cataloging source
MiAaPQ
Dewey number
539
Illustrations
illustrations
Index
no index present
Language note
English
LC call number
QC173
LC item number
.A2860 2011
Literary form
non fiction
Nature of contents
dictionaries
http://library.link/vocab/relatedWorkOrContributorDate
1945-
http://library.link/vocab/relatedWorkOrContributorName
  • Arimondo, E
  • Berman, Paul R.
  • Lin, C. C
Series statement
Advances in atomic and molecular physics
Series volume
60
http://library.link/vocab/subjectName
  • Molecules
  • Atoms
Label
Advances in atomic, molecular, and optical physics, Volume 60, edited by E. Arimondo, P.R. Berman, C.C. Lin, (electronic resource )
Instantiates
Publication
Note
Description based upon print version of record
Carrier category
online resource
Carrier category code
cr
Content category
text
Content type code
txt
Contents
  • Front Cover; Advances In atomic, Molecular, and Opticalphysics; Copyright; Table of Contents; Contributors; Preface; Chapter 1. The Use of the Magnetic Angle Changer in Atomic and Molecular Physics; 1. Introduction and Background; 1.1 Introduction; 1.2 Alternative Techniques for Accessing the Backward Hemisphere in Electron Scattering; 1.3 Applicability of the Magnetic Angle Changer (MAC); 2. Principles of Operation of the MAC and Practical Realizations of it; 2.1 Principles of Operation of the MAC; 2.2 Practical Examples of the MAC; 2.2.1 Prototype Manchester Design
  • 2.2.2 High Transparency MAC2.2.3 Iron-Cored System of Solenoids; 2.2.4 Conical Solenoid Design; 2.2.5 Multisolenoid Systems; 3. Elastic Electron Scattering and Vibrational Excitation; 3.1 Elastic Electron Scattering in Atoms; 3.1.1 Introduction; 3.1.2 Apparatus and Experimental Methods; 3.1.3 Elastic DCS in the Rare Gases; 3.1.3.1 Elastic DCS in Neon; 3.1.3.2 Elastic DCS in Argon; 3.1.3.3 Elastic DCS in Krypton and Xenon; 3.1.4 Integral and Momentum Transfer Cross Sections; 3.2 Elastic Electron Scattering and Vibrational Excitation in Molecules
  • 3.2.1 Elastic Electron Scattering and Vibrational Excitation in Molecular Nitrogen4. Inelastic Electron Scattering; 4.1 DCS for Inelastic Electron Scattering; 4.2 Electron Energy Loss Spectroscopy; 5. Resonances in Electron Impact Excitation of Atoms and Molecules; 5.1 Resonances in Elastic Electron Scattering; 5.1.1 Resonances in Rare Gas Atoms; 5.1.2 High-Resolution Studies of Feshbach Resonances in Krypton; 5.1.3 Resonances in Electron-Molecule Scattering; 5.2 Resonances in Inelastic Electron Scattering
  • 5.2.1 Observation of Resonance Structure in the Angle-Differential Excitation Cross Sections of the 2p53s Levels of Neon6. Coincidence Studies in Electron Impact Excitation and Ionization; 6.1 Introduction; 6.2 (e, 2e) Experiments; 6.3 The Electron-Photon Coincidence Technique and Superelastic Scattering; 7. Photoelectron Spectroscopy; 7.1 Advantages of the MAC for Photoelectron Spectroscopy; 7.2 Photoelectron Spectroscopy; 7.2.1 Photoelectron Spectroscopy of Atoms: The Study of Autoionizing Resonances; 7.2.2 High-Resolution Photoelectron Studies of H2; 7.2.3 Photodouble Ionization
  • 8. ConclusionsReferences; Chapter 2. X-ray Methods in High-Intensity Discharges and Metal-Halide Lamps: X-ray Induced Fluorescence; 1. Introduction; 2. High-Intensity Discharges and Metal-Halide Lamps; 3. Why X-ray Methods?; 4. Interaction of X rays with Atoms; 5. X-ray Induced Fluorescence Spectroscopy (XRIF); 5.1 Density Measurements; 5.2 Temperature Distributions; 5.3 Chemical Partitioning; 5.4 Demixing; 5.5 Equilibrium Vapor Pressures; 5.6 Accuracy; 6. Summary; Glossary; References; Chapter 3. Time-Domain Interferometry with Laser-Cooled Atoms
  • 1. Introduction and Description of Two-Pulse Standing Wave Interferometer
Dimensions
unknown
Extent
1 online resource (561 p.)
Form of item
online
Isbn
9786613920720
Media category
computer
Media type code
c
Specific material designation
remote
System control number
  • (EBL)887281
  • (OCoLC)793510878
  • (SSID)ssj0000660766
  • (PQKBManifestationID)12239869
  • (PQKBTitleCode)TC0000660766
  • (PQKBWorkID)10707721
  • (PQKB)11434033
  • (MiAaPQ)EBC887281
  • (EXLCZ)993190000000021077
Label
Advances in atomic, molecular, and optical physics, Volume 60, edited by E. Arimondo, P.R. Berman, C.C. Lin, (electronic resource )
Publication
Note
Description based upon print version of record
Carrier category
online resource
Carrier category code
cr
Content category
text
Content type code
txt
Contents
  • Front Cover; Advances In atomic, Molecular, and Opticalphysics; Copyright; Table of Contents; Contributors; Preface; Chapter 1. The Use of the Magnetic Angle Changer in Atomic and Molecular Physics; 1. Introduction and Background; 1.1 Introduction; 1.2 Alternative Techniques for Accessing the Backward Hemisphere in Electron Scattering; 1.3 Applicability of the Magnetic Angle Changer (MAC); 2. Principles of Operation of the MAC and Practical Realizations of it; 2.1 Principles of Operation of the MAC; 2.2 Practical Examples of the MAC; 2.2.1 Prototype Manchester Design
  • 2.2.2 High Transparency MAC2.2.3 Iron-Cored System of Solenoids; 2.2.4 Conical Solenoid Design; 2.2.5 Multisolenoid Systems; 3. Elastic Electron Scattering and Vibrational Excitation; 3.1 Elastic Electron Scattering in Atoms; 3.1.1 Introduction; 3.1.2 Apparatus and Experimental Methods; 3.1.3 Elastic DCS in the Rare Gases; 3.1.3.1 Elastic DCS in Neon; 3.1.3.2 Elastic DCS in Argon; 3.1.3.3 Elastic DCS in Krypton and Xenon; 3.1.4 Integral and Momentum Transfer Cross Sections; 3.2 Elastic Electron Scattering and Vibrational Excitation in Molecules
  • 3.2.1 Elastic Electron Scattering and Vibrational Excitation in Molecular Nitrogen4. Inelastic Electron Scattering; 4.1 DCS for Inelastic Electron Scattering; 4.2 Electron Energy Loss Spectroscopy; 5. Resonances in Electron Impact Excitation of Atoms and Molecules; 5.1 Resonances in Elastic Electron Scattering; 5.1.1 Resonances in Rare Gas Atoms; 5.1.2 High-Resolution Studies of Feshbach Resonances in Krypton; 5.1.3 Resonances in Electron-Molecule Scattering; 5.2 Resonances in Inelastic Electron Scattering
  • 5.2.1 Observation of Resonance Structure in the Angle-Differential Excitation Cross Sections of the 2p53s Levels of Neon6. Coincidence Studies in Electron Impact Excitation and Ionization; 6.1 Introduction; 6.2 (e, 2e) Experiments; 6.3 The Electron-Photon Coincidence Technique and Superelastic Scattering; 7. Photoelectron Spectroscopy; 7.1 Advantages of the MAC for Photoelectron Spectroscopy; 7.2 Photoelectron Spectroscopy; 7.2.1 Photoelectron Spectroscopy of Atoms: The Study of Autoionizing Resonances; 7.2.2 High-Resolution Photoelectron Studies of H2; 7.2.3 Photodouble Ionization
  • 8. ConclusionsReferences; Chapter 2. X-ray Methods in High-Intensity Discharges and Metal-Halide Lamps: X-ray Induced Fluorescence; 1. Introduction; 2. High-Intensity Discharges and Metal-Halide Lamps; 3. Why X-ray Methods?; 4. Interaction of X rays with Atoms; 5. X-ray Induced Fluorescence Spectroscopy (XRIF); 5.1 Density Measurements; 5.2 Temperature Distributions; 5.3 Chemical Partitioning; 5.4 Demixing; 5.5 Equilibrium Vapor Pressures; 5.6 Accuracy; 6. Summary; Glossary; References; Chapter 3. Time-Domain Interferometry with Laser-Cooled Atoms
  • 1. Introduction and Description of Two-Pulse Standing Wave Interferometer
Dimensions
unknown
Extent
1 online resource (561 p.)
Form of item
online
Isbn
9786613920720
Media category
computer
Media type code
c
Specific material designation
remote
System control number
  • (EBL)887281
  • (OCoLC)793510878
  • (SSID)ssj0000660766
  • (PQKBManifestationID)12239869
  • (PQKBTitleCode)TC0000660766
  • (PQKBWorkID)10707721
  • (PQKB)11434033
  • (MiAaPQ)EBC887281
  • (EXLCZ)993190000000021077

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