Verfügbarkeit: Quantum Phase Transitions in Cold Atoms and Low Temperature Solids

Quantum Phase Transitions in Cold Atoms and Low Temperature Solids:

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1. Verfasser:	Hazzard, Kaden Richard Alan (VerfasserIn)
Format:	Abschlussarbeit Buch
Sprache:	English
Veröffentlicht:	New York, NY [u.a.] Springer 2011
Schriftenreihe:	Springer Theses
Schlagworte:	Tieftemperaturphysik Phasenumwandlung Hochschulschrift
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XVIII, 233 S. Ill., graph. Darst.
ISBN:	9781441981783

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Datensatz im Suchindex

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adam_text	Contents 1 Introduction to Many-Body Physics in Ultracold Atomic Gases ... ł 1.1 Motivation: Many-Body Physics ..................... I 1.2 Motivation: General Atomic Physics .................. 4 1.3 History and Introduction to Many-Body Physics in Cold Atomic Systems .......................... 5 1.3.1 Background and Achievements ............... 5 1.4 Challenges and Outline of Thesis .................... 7 References ......................................... 9 2 Theoretical and Experimental Techniques Used to Explore Many-Body Physics in Cold Atoms, Especially Optical Lattices ............................. 11 2.1 Experimental Techniques .......................... 11 2.1.1 Common Experimental Techniques for all Cold Atoms Experiments: Trapping and Cooling ...... 11 2.1.2 Optical Lattice Experimental Techniques ........ 14 2.1.3 Detection .............................. 16 2.2 Theoretical Techniques ........................... 18 2.2.1 Interactions in Cold Atom Systems ............ 18 2.2.2 Weak Interactions: Mean Field Theory and Fluctuations ......................... 22 2.2.3 Bosons in an Optical Lattice and the Bose-Hubbard Model ............... 24 2.2.4 Gutzwiller Mean Field .................... 26 2.2.5 Fluctuations in Strong Lattice Potentials: Beyond Gutzwiller ....................... 29 2.2.6 Extracting Information About Homogeneous Systems from Trapped Systems .............. 30 References ......................................... 31 xiv Contents 3 Radio-Frequency Spectroscopy: Broad Introduction .......... 33 3.1 Motivation and Background ........................ 33 3.2 Two Differing Pictures of RF Spectroscopy ............. 34 References ......................................... 35 4 RF Spectra: A Sum Rule Approach to Trapped Bosons in an Optical Lattice .................................. 37 4.1 Chapter Overview ............................... 37 4.2 Introduction ................................... 37 4.3 Spectrum of Harmonically Trapped Gas ............... 39 4.3.1 Hamiltonian and Approximations ............. 39 4.3.2 Homogeneous Clock Shifts ................. 41 4.3.3 Calculation of Spectrum in a Trap ............ 42 4.3.4 Analytic Results ......................... 44 4.3.5 Intermediate Coupling ..................... 45 4.4 Refinements ................................... 46 4.4.1 Anharmonicity .......................... 47 4.4.2 Alternative Explanations of Enhanced Low-Density Spectral Weight ......................... 48 4.5 Summary ..................................... 49 References ......................................... 50 5 RF Spectra: Multiple Peaked Spectrum in a Homogeneous System .............................. 51 5.1 Chapter Overview ............................... 51 5.2 Introduction ................................... 52 5.2.1 RF Spectroscopy ......................... 52 5.3 Bose-Hubbard Model ............................ 54 5.3.1 Model and RF Spectra .................... 54 5.3.2 Sum Rules ............................. 55 5.4 Random Phase Approximation ...................... 55 5.4.1 General Setup and Solution ................. 55 5.4.2 Limiting Cases and Dependence on Final State Interactions .................. 58 5.4.3 Inhomogeneous Spectrum .................. 59 5.5 Conclusions and Discussion ........................ 61 References ......................................... 62 6 Radio-Frequency Spectra at Finite Temperature, Fluctuation-Response Relations, and Proposed Applications ..... 63 6.1 Chapter Overview ............................... 63 6.2 Introduction ................................... 63 6.3 RF Spectra Introduction ........................... 64 6.4 Finite Temperature Superfluid ...................... 65 Contents xv 6.5 Applications................................... 67 6.5.1 Thermometry with the Mott Insulator .......... 67 6.5.2 Number Correlations and Local Compressibility. . . 72 6.6 Determining Density Profiles from RF Spectra ........... 75 6.6.1 Determining Density Profiles from Spectra When Mean Energy Shift is Proportional to the Density Plus a Constant .................... 76 6.6.2 Determining Density Profiles from RF Spectra in the General Case ...................... 77 6.6.3 Cooling and Quantum Register Initialization ..... 77 6.6.4 Measuring Spatial Correlations; Quantum Computer Readout ....................... 78 6.7 Conclusions ................................... 83 References ......................................... 84 7 RF Spectra: Summary, Conclusions, and the Future .......... 85 References ......................................... 86 8 Rotation, Inducing Gauge Fields, and Exotic States of Matter in Cold Atoms ............................... 87 8.1 Physics of Rotating Particles/Particles in Gauge Fields ..... 88 8.1.1 Vortices ............................... 89 8.1.2 Vortices in Lattices: Hofstadter Butterfly ........ 89 8.1.3 Quantum Hall Effect ...................... 90 8.2 Rotation ..................................... 92 8.2.1 Rotation and Angular Momentum Boosts — Principles and Experimental Techniques ........ 92 8.2.2 Rotation Leads to an Effective Magnetic Field (Gauge Field) and Limitations of Rotation for Inducing Exotic States .................. 92 8.3 Other Methods of Inducing Gauge Fields .............. 93 8.4 On-Site Correlations ............................. 94 References ......................................... 94 9 Stirring up Fractional Quantum Hall Puddles ............... 97 9.1 Chapter Overview ............................... 97 9.2 Introduction ................................... 97 9.3 Summary ..................................... 103 References ......................................... 104 10 Incorporating Arbitrarily Strong On-Site Correlations into Lattice Models ................................... 105 10.1 Chapter Overview ............................... 106 xvi Contents 10.2 Body ........................................ 106 References ......................................... ИЗ 11 Quantitative Calculation of Parameters for a Model Sufficiently General to Capture all On-Site Correlations ................ 115 11.1 Background ................................... 115 11.2 Introduction, Notation, and Set Up ................... 115 11.3 Quantitative Estimates of the Hamiltonian Parameters with Quantum Monte Carlo ........................ 116 11.3.1 General Idea ........................... 116 11.3.2 Relating Response to Correlation Functions ...... 117 11.3.3 Implementation of Correlation Function in PIMC ... 117 11.4 Solutions for Various Values of t(mn) and Em ............ 118 11.4.1 Non-Interacting Case ...................... 118 11.4.2 Strong Coupling t/U -> 0 Limit ............. 122 11.4.3 General — Correlation Functions from Exact Diagonalization ................. 129 11.5 Note on Temperature Dependence of Response Functions ... 129 Reference .......................................... 129 12 Summary, Conclusions, and the Future of Induced Gauge Fields and Lattices with On-Site Correlations ............... 131 References ......................................... 131 13 Techniques to Measure Quantum Criticality in Cold Atoms ..... 133 13.1 Introduction ................................... 133 13.2 Note and Summary .............................. 139 References ......................................... 140 14 Quantum Criticality: More Detailed Information ............. 143 14.1 Bose-Hubbard Model ............................ 143 14.2 Finite Temperature Gutzwiller Theory ................. 144 14.3 Non-Universal Contributions ....................... 144 14.4 Time of Flight Expansion ......................... 145 14.5 Finite Density O(2) Model ......................... 146 14.6 Calculating Density Profiles of One-Dimensional Hardcore Bosons ............................... 147 14.7 Other Cold Atoms Systems Displaying Quantum Criticality ... 148 14.8 Precise Definition of Universality .................... 148 14.9 Quantum Monte Carlo Parameters and Signal-to-Noise ..... 150 14.10 Finite-Size Scaling .............................. 151 References ......................................... 151 Contents xvii 15 Systems Other than Cold Atoms ......................... 153 16 Film Mediated Interactions Alter Correlations and Spectral Shifts of Hydrogen Adsorbed on Helium Films .............. 155 16.1 Chapter Overview ............................... 155 16.2 Results ...................................... 156 References ......................................... 162 17 Candidate Theories to Explain the Anomalous Spectroscopie Signatures of Atomic H in Molecular H2 Crystals ............ 165 17.1 Introduction and Motivation ........................ 165 17.2 Experiments ................................... 166 17.2.1 General Introduction: Physics of Atomic Hydrogen Embedded in Solid Hydrogen ................ 166 17.2.2 Anomalies and Experimental Results .......... 168 17.3 Scenarios ..................................... 168 17.3.1 Bose Statistics and Bose-Einstein Condensation . . . 169 17.3.2 Local Bose-Einstein Condensation ............ 173 17.3.3 Nuclear Spin Dependent Density-of-States ....... 174 17.4 Other Observations .............................. 175 17.5 Summary, Conclusions, and Consequences ............. 176 References ......................................... 177 18 Helium and Hydrogen (superľ)Solids ..................... 179 18.1 Background ................................... 179 18.2 Chapter Overview ............................... 179 18.3 Introduction ................................... 180 18.4 Torsionai Oscillator NCRI ......................... 181 18.5 Two Supersolid Features .......................... 181 18.6 Blocked Annulus Torsionai Oscillators ................ 182 18.7 Dissipation Peaks ............................... 182 18.8 H2 Experiments ................................ 183 18.9 Frequency Dependence ........................... 186 18.10 Thermodynamics: Specific Heat and Pressure ........... 187 18.11 3He Doping ................................... 188 18.11.1 Frozen Link Model ....................... 188 18.11.2 Dynamic Link Model ..................... 189 18.12 Anomalous Critical Velocity ....................... 191 18.13 DC Flow ..................................... 191 18.14 Shear ........................................ 191 18.15 Implications for Mechanism ........................ 192 18.16 Future Directions ............................... 192 18.17 Conclusions ................................... 193 References ......................................... 193 xviii Contents Appendix A: Relating Scattering Amplitudes and ľ-Matrix ........ 195 Appendix B: Ward Identities for the RF Spectrum for the Bose-Hubbard Model — Vertex Corrections, Symmetries, and Conservation Laws ......................... 197 Biographical Sketch ...................................... 229 Curriculum Vitae ....................................... 231
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spelling	Hazzard, Kaden Richard Alan Verfasser aut Quantum Phase Transitions in Cold Atoms and Low Temperature Solids Kaden Richard Alan Hazzard New York, NY [u.a.] Springer 2011 XVIII, 233 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Springer Theses Ithaca, Cornell Univ., Department of Physics, 2010 Tieftemperaturphysik (DE-588)4185450-0 gnd rswk-swf Phasenumwandlung (DE-588)4132140-6 gnd rswk-swf (DE-588)4113937-9 Hochschulschrift gnd-content Phasenumwandlung (DE-588)4132140-6 s Tieftemperaturphysik (DE-588)4185450-0 s DE-604 Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=024378041&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Hazzard, Kaden Richard Alan Quantum Phase Transitions in Cold Atoms and Low Temperature Solids Tieftemperaturphysik (DE-588)4185450-0 gnd Phasenumwandlung (DE-588)4132140-6 gnd
subject_GND	(DE-588)4185450-0 (DE-588)4132140-6 (DE-588)4113937-9
title	Quantum Phase Transitions in Cold Atoms and Low Temperature Solids
title_auth	Quantum Phase Transitions in Cold Atoms and Low Temperature Solids
title_exact_search	Quantum Phase Transitions in Cold Atoms and Low Temperature Solids
title_full	Quantum Phase Transitions in Cold Atoms and Low Temperature Solids Kaden Richard Alan Hazzard
title_fullStr	Quantum Phase Transitions in Cold Atoms and Low Temperature Solids Kaden Richard Alan Hazzard
title_full_unstemmed	Quantum Phase Transitions in Cold Atoms and Low Temperature Solids Kaden Richard Alan Hazzard
title_short	Quantum Phase Transitions in Cold Atoms and Low Temperature Solids
title_sort	quantum phase transitions in cold atoms and low temperature solids
topic	Tieftemperaturphysik (DE-588)4185450-0 gnd Phasenumwandlung (DE-588)4132140-6 gnd
topic_facet	Tieftemperaturphysik Phasenumwandlung Hochschulschrift
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