Advances in atomic, molecular, and optical physics. Vol. 61 /

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,...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Arimondo, E., Berman, Paul R., 1945-, Lin, Chun C.
Formato: Electrónico eBook
Idioma:Inglés
Publicado: San Diego : Elsevier/Academic Press, 2012.
Temas:
Nuclear physics.
Physical optics.
Molecules.
Atoms.
Physique nucl�eaire.
Optique physique.
Mol�ecules.
Atomes.
nuclear physics.
SCIENCE > Physics > Quantum Theory.
Atoms
Molecules
Nuclear physics
Physical optics
Acceso en línea:Texto completo

MARC

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245 0 0 |a Advances in atomic, molecular, and optical physics.  |n Vol. 61 /  |c edited by E. Arimondo, P.R. Berman, C.C. Lin. 
260 |a San Diego :  |b Elsevier/Academic Press,  |c 2012. 
300 |a 1 online resource (xvi, 585 pages) :  |b illustrations 
336 |a text  |b txt  |2 rdacontent 
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504 |a Includes bibliographical references and index. 
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520 |a 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. 
505 0 |a FrontCover; Advances in Atomic, Molecular, and Optical Physics; Editorial Board; Copyright; Table ofContents; Contributors; Preface; Engineered Open Systems and Quantum Simulations with Atoms and Ions; 1. Introduction; 2. Digital Quantum Simulation with Trapped Ions and Rydberg Atoms; 2.1 Concepts and First Experiments with Trapped Ions; 2.1.1 The Digital Simulation Method; 2.1.2 Coherent Digital Simulation with Trapped Ions; 2.2 Scalable Quantum Simulation with Rydberg Atoms; 2.2.1 Paradigmatic Example: Simulation of Kitaev's Toric Code Hamiltonian; 2.2.2 A Mesoscopic Rydberg Gate 
505 8 |a 2.2.3 Simulation of Coherent Many-Body Interactions2.3 Digital Simulation of Open-System Dynamics; 2.3.1 Bell State Pumping; 2.3.2 Stabilizer Pumping and Ground State Cooling of the Toric Code Hamiltonian; 2.3.3 Digital Simulation of a U(1) Lattice Gauge Theory; 2.4 The Effect of Gate Imperfections on Digital Quantum Simulation; 3. Engineered Open Systems with Cold Atoms; 3.1 Long-Range Order via Dissipation; 3.1.1 Driven-Dissipative BEC; 3.1.2 Implementation with Cold Atoms; 3.2 Competition of Unitary and Dissipative Dynamics in Bosonic Systems; 3.2.1 Dynamical Phase Transition 
505 8 |a 3.2.2 Critical Behavior in Time3.2.3 Dynamical Instability and Spontaneous Translation Symmetry Breaking; 3.3 Dissipative d-Wave Paired States for Fermi-Hubbard Quantum Simulation; 3.3.1 Dissipative Pairing Mechanism; 3.3.2 Dissipative Gap; 3.3.3 State Preparation; 3.4 Dissipative Topological States of Fermions; 3.4.1 Dissipative Topological Quantum Wire; 3.4.2 Nonabelian Character of Dissipative Majorana Modes; 3.4.3 Topological Order in Density Matrices; 3.4.4 Physical Implementation; 4. Outlook; Acknowledgments; Entanglement of Two Atoms Using Rydberg Blockade; 1. Introduction 
505 8 |a 2. Entanglement Using Rydberg Blockade3. Trapping and Readout of Single Atoms; 3.1 Optical Traps; 3.2 Detection of Single Atoms and Quantum States; 3.3 Single-Atom State Detection; 3.4 Optical Trap Effects on Rydberg Atoms; 4. State Preparation; 4.1 Optical Pumping; 4.2 Single Qubit Rotations; 5. Coherent Rydberg Rabi Flopping; 6. Rydberg Blockade; 7. CNOT Gate; 8. Entanglement Verification; 9. Future Improvements; 9.1 Deterministic Loading of Optical Lattices; 9.2 Advantages of Dark FORTs; 9.3 Two-Photon Excitation Via the Alkali Second Resonance; 9.4 Improved FORT Decoherence 
505 8 |a 9.5 Fundamental LimitsAcknowledgments; Atomic and Molecular Ionization Dynamics in Strong Laser Fields: From Optical to X-rays; 1. Introduction; 2. The First 30 Years of Multiphoton Physics (1963-1993); 2.1 The Genesis of a Field: The Early Days; 2.2 Resonant Multiphoton Ionization (MPI); 2.3 Coherence; 2.4 Non-Resonant MPI; 2.5 Above-Threshold Ionization (ATI): Doorway into the Modern Era; 2.6 Non-Perturbative ATI; 2.7 Rydberg Resonances and the Role of Atomic Structure; 2.8 Multiple Ionization, Anne's Knee, and the Lambropoulos Curse; 2.9 Keldysh Tunneling: Different Mode of Ionization 
650 0 |a Nuclear physics. 
650 0 |a Physical optics. 
650 0 |a Molecules. 
650 0 |a Atoms. 
650 6 |a Physique nucl�eaire.  |0 (CaQQLa)201-0002614 
650 6 |a Optique physique.  |0 (CaQQLa)201-0045330 
650 6 |a Mol�ecules.  |0 (CaQQLa)201-0013771 
650 6 |a Atomes.  |0 (CaQQLa)201-0006001 
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650 7 |a Molecules  |2 fast  |0 (OCoLC)fst01024869 
650 7 |a Nuclear physics  |2 fast  |0 (OCoLC)fst01040386 
650 7 |a Physical optics  |2 fast  |0 (OCoLC)fst01062718 
700 1 |a Arimondo, E. 
700 1 |a Berman, Paul R.,  |d 1945- 
700 1 |a Lin, Chun C. 
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