This volume continues the tradition of the Advances series. It contains contributions from experts in the field of atomic, molecular, and optical (AMO) physics. The articles contain some review material, but are intended to provide a comprehensive picture of recent important developments in AMO physics. Both theoretical and experimental articles are included in the volume.
International experts
Comprehensive articles
New developments
This volume continues the tradition of the Advances series. It contains contributions from experts in the field of atomic, molecular, and optical (AMO) physics. The articles contain some review material, but are intended to provide a comprehensive picture of recent important developments in AMO physics. Both theoretical and experimental articles are included in the volume.
International experts
Comprehensive articles
New developments
| Contributors |
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ix | |
| Preface |
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xi | |
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1 Casimir Effects in Atomic, Molecular, and Optical Physics |
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1 | (1) |
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2 What's a Micro Effect; What's a Macro Effect? |
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2 | (2) |
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4 | (1) |
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4 Yet Another Repulsive Interaction |
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5 | (4) |
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5 Nonrelativistic Molecules and Dressed Atoms |
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9 | (3) |
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12 | (1) |
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13 | (3) |
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16 | (6) |
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16 | (1) |
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17 | (5) |
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2 Advances in Coherent Population Trapping for Atomic Clocks |
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1 Coherent Population Trapping |
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22 | (5) |
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27 | (12) |
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3 Advanced CPT Techniques |
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39 | (21) |
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4 Additional Considerations |
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60 | (6) |
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5 Conclusions and Outlook |
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66 | (10) |
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67 | (1) |
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67 | (9) |
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3 Dissociative Recombination of H3+ Ions with Electrons: Theory and Experiment |
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76 | (2) |
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78 | (1) |
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3 Experimental Techniques |
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79 | (7) |
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86 | (17) |
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5 History of Experimental H3+ Recombination Studies |
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103 | (4) |
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6 Reconciling Afterglow and Storage Ring Results |
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107 | (11) |
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7 Comparison of Storage Ring Data |
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118 | (2) |
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120 | (2) |
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122 | (1) |
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122 | (8) |
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123 | (1) |
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123 | (7) |
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4 Permanent Electric Dipole Moments of Atoms and Molecules |
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130 | (2) |
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2 Historical Perspectives |
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132 | (14) |
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3 Contemporary Theoretical Motivations---The Standard Model and Beyond |
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146 | (2) |
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148 | (4) |
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5 Contemporary Experiments |
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152 | (16) |
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168 | (8) |
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168 | (1) |
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168 | (8) |
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5 Spontaneous Decay, Unitarity, and the Weisskopf-Wigner Approximation |
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176 | (5) |
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2 Excited State Time Evolution |
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181 | (24) |
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205 | (12) |
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217 | (7) |
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220 | (1) |
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220 | (4) |
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6 Ultrafast Nonlinear Optical Signals Viewed from the Molecule's Perspective: Kramers-Heisenberg Transition-Amplitudes versus Susceptibilities |
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224 | (4) |
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2 Quantum-Field Description of Heterodyne Signals |
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228 | (3) |
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3 Transition-Amplitudes and the Optical Theorem for Time-Domain Measurements |
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231 | (5) |
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4 CTPL Representation of Optical Signals |
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236 | (3) |
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239 | (4) |
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6 The Pump-Probe Signal Revisited: Transition Amplitudes |
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243 | (6) |
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7 Coherent Anti-Stokes Raman Spectroscopy |
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249 | (3) |
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8 Cars Signals Recast in Terms of Transition Amplitudes |
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252 | (4) |
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9 Cars Resonances Can be Viewed as a Double-Slit Interference of Two-Photon Pathways |
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256 | (2) |
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10 Purely-Dissipative Spectroscopic Signals |
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258 | (2) |
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260 | (5) |
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261 | (1) |
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261 | (4) |
| Index |
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265 | (8) |
| Contents of Volumes in This Serial |
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273 | |
Paul Berman is Professor of Physics at the University of Michigan. In a career spanning over 40 years, Professor Berman has been engaged in theoretical research related to the interaction of radiation with matter. Of particular interest is the identification of atom-field configurations which can result in qualitatively new phenomena. Professor Berman is a Fellow of the American Physical Society and the Optical Society of America. He is the co-author of a textbook, Principles of Laser Spectroscopy and Quantum Optics, published in2010 by Princeton University Press. Ennio Arimondo is Professor of Physics at the University of Pisa, Italy. In a a long research career, Professor Arimondo has been engaged in experimental and theoretical research related to laser spectroscopy, the interaction of radiation with matter, laser cooling and new phenomena of ultracold atomic gases. Professor Arimondo is a Fellow of the American Physical Society and of the Institute of Physics. He is editor of Conference and School Proceedings. Chun C. Lin is Professor of Physics at the University of Wisconsin Madison. He has been working in various areas of atomic and molecular physics for several decades. He received the American Physical Society Will Allis Prize for advancing the understanding of the microscopic behavior of ionized gases through his innovative and pioneering studies of excitation in electron and ion collisions with atomic and molecular targets in 1996. He is a Fellow of the American Physical Society and has served as the Chair of the Division of Atomic, Molecular and Optical Physics in the American Physical Society (1994 1995).
