Verfügbarkeit: Fundamental physics in particle traps

Fundamental physics in particle traps:

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Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin [u.a.] Springer 2014
Schriftenreihe:	Springer Tracts in Modern Physics 256
Schlagworte:	Teilchenfalle
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	XXI, 411 S. Ill., graph. Darst.
ISBN:	9783642452000

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Datensatz im Suchindex

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adam_text	CONTENTS 1 PRECISE MATTER AND ANTIMATTER TESTS OF THE STANDARD MODEL WITH E~,E + .P, P AND H 1 G. GABRIELSE, S. FOGWELL HOOGERHEIDE, J. DORR AND E. NOVITSKI 1.1 OVERVIEW SUMMARY 1 1.2 MAGNETIC MOMENTS 6 1.3 ONE-ELECTRON QUANTUM CYCLOTRON 9 1.3.1 A HOMEMADE ATOM 9 1.3.2 CYLINDRICAL PENNING TRAP CAVITY 11 1.3.3 100 MK AND 5 T 14 1.3.4 STABILIZING THE ENERGY LEVELS 15 1.3.5 MOTIONS AND DAMPING OF THE SUSPENDED ELECTRON. . . 17 1.4 NON-DESTRUCTIVE DETECTION OF ONE-QUANTUM TRANSITIONS . 17 1.4.1 QND DETECTION 17 1.4.2 ONE-ELECTRON SELF-EXCITED OSCILLATOR 19 1.4.3 INHIBITED SPONTANEOUS EMISSION 20 1.5 ELEMENTS OF A ELECTRON G/2 MEASUREMENT 22 1.5.1 QUANTUM JUMP SPECTROSCOPY 22 1.5.2 THE ELECTRON AS MAGNETOMETER 24 1.5.3 MEASURING THE AXIAL FREQUENCY 24 1.5.4 FREQUENCIES FROM LINESHAPES 25 1.5.5 CAVITY SHIFTS 26 1.6 RESULTS AND APPLICATIONS 28 1.6.1 MOST ACCURATE ELECTRON G/2 28 1.6.2 MOST ACCURATE DETERMINATION OF A 30 1.6.3 TESTING THE STANDARD MODEL AND QED 32 1.6.4 PROBE FOR ELECTRON SUBSTRUCTURE 35 1.6.5 COMPARISON TO THE MUON G/2 35 1.7 PROSPECTS AND CONCLUSION 36 REFERENCES 37 IX HTTP://D-NB.INFO/1043933549 X CONTENTS 2 THEORY OF ANOMALOUS MAGNETIC DIPOLE MOMENTS OF THE ELECTRON 41 MASASHI HAYAKAWA 2.1 INTRODUCTION 41 2.2 QED AND ANOMALOUS MAGNETIC DIPOLE MOMENT 44 2.2.1 PERTURBATION THEORY OF QED 44 2.2.2 FEYNMAN DIAGRAMS AND FEYNMAN RULE 46 2.2.3 ANOMALOUS MAGNETIC DIPOLE MOMENT 48 2.2.4 RENORMALIZATION AND COUNTER-TERMS 49 2.2.5 CLASSIFICATION OF PERTURBATIVE DYNAMICS 50 2.3 NON-QED CONTRIBUTION TO G * 2 51 2.4 NUMERICAL APPROACH TO PERTURBATIVE QED CALCULATION 54 2.4.1 CLASSIFICATION OF FEYNMAN DIAGRAMS 54 2.4.2 PARAMETRIC REPRESENTATION OF FEYNMAN DIAGRAMS. 57 2.4.3 SUBTRACTION OF UV AND IR DIVERGENCES 61 2.5 RESULT FOR QED CONTRIBUTION 67 REFERENCES 69 3 MAGNETIC MOMENT OF THE BOUND ELECTRON 73 MANUEL VOGEL AND WOLFGANG QUINT 3.1 THE CASE OF THE BOUND ELECTRON 73 3.2 WHY THE BOUND ELECTRON IS INTERESTING 75 3.3 A BRIEF LOOK BACK 77 3.4 THE CONTINUOUS STERN-GERLACH EFFECT 79 3.5 MEASUREMENT PRINCIPLE AND ION CONFINEMENT 81 3.5.1 MEASUREMENT PRINCIPLE AND IDEAL CONFINEMENT 81 3.5.2 IMPERFECTIONS 82 3.5.3 MAGNETIC BOTTLE 90 3.6 EXPERIMENTAL SETUPS AND TECHNIQUES 96 3.6.1 ION COOLING AND OSCILLATION FREQUENCY MEASUREMENT 99 3.6.2 LARMOR FREQUENCY MEASUREMENT 102 3.6.3 SPIN STATE DETERMINATION 103 3.6.4 DOUBLE-TRAP TECHNIQUE 106 3.6.5 MODE COUPLING TECHNIQUES 108 3.7 RESULTS ILL 3.7.1 LARMOR RESONANCES ILL 3.7.2 RESULTING MAGNETIC MOMENTS AND UNCERTAINTIES . 112 3.8 DOUBLE-RESONANCE SPECTROSCOPY 114 3.8.1 APPLICATION TO HIGHLY CHARGED IONS 115 3.8.2 DOUBLE-RESONANCE SPECTROSCOPY AND THE ZEEMAN EFFECT 121 3.9 COMMENT ON TRAP-SPECIFIC SPECTROSCOPY 122 CONTENTS XI 3.10 RELATION OF THE BOUND ELECTRON MAGNETIC MOMENT TO OTHER QUANTITIES 123 3.10.1 FINE STRUCTURE CONSTANT 123 3.10.2 ELECTRON MASS 125 3.10.3 RELATIONS TO NUCLEAR PROPERTIES 125 REFERENCES 127 4 QED THEORY OF THE BOUND-ELECTRON MAGNETIC MOMENT 137 D. A. GLAZOV, A. V. VOLOTKA, V. M. SHABAEV AND G. PLUNIEN 4.1 INTRODUCTION 137 4.2 FURRY PICTURE OF QED 138 4.2.1 SCREENING POTENTIAL 141 4.2.2 . EFFECTIVE HAMILTONIAN 142 4.2.3 ONE-ELECTRON QED EFFECTS 143 4.2.4 MANY-ELECTRON QED EFFECTS 149 4.3 NUCLEAR RECOIL EFFECT 153 4.4 NUCLEAR SIZE AND POLARIZATION EFFECTS 154 4.5 ZEEMAN SPLITTING IN FEW-ELECTRON IONS 155 4.5.1 NON-LINEAR IN MAGNETIC FIELD EFFECTS 156 REFERENCES 158 5 THE MAGNETIC MOMENTS OF THE PROTON AND THE ANTIPROTON 165 STEFAN ULMER AND CHRISTIAN SMORRA 5.1 INTRODUCTION 165 5.2 CPT TESTS 167 5.3 THE MAGNETIC MOMENTS OF THE PROTON AND THE ANTIPROTON . . . 170 5.4 ANTIPROTON MAGNETIC MOMENT AND ANTIHYDROGEN HYPERFINE STRUCTURE 173 5.5 G-FACTOR MEASUREMENTS 174 5.6 THE PENNING TRAP 174 5.7 EXPERIMENTAL SETUP 177 5.8 MEASUREMENT OF THE EIGENFREQUENCIES 178 5.8.1 PEAK DETECTION 178 5.8.2 DIP DETECTION 179 5.8.3 SIDEBAND COUPLING 181 5.9 ADVANCED FREQUENCY MEASUREMENTS 182 5.10 CONTINUOUS STERN GERLACH EFFECT 184 5.11 LARMOR FREQUENCY MEASUREMENT 186 5.12 LINE PROFILE AND TRANSITION RATES 187 5.13 STATISTICAL DETECTION OF SPINFLIPS 189 5.14 FEEDBACK COOLING: REDUCTION OF LINEWIDTH 191 5.15 DETERMINATION OF THE G-FACTOR 192 XII CONTENTS 5.16 DOUBLE PENNING TRAP TECHNIQUE 193 5.17 TOWARDS A HIGH PRECISION MEASUREMENT OF THE ANTIPROTON MAGNETIC MOMENT 195 5.18 SUMMARY 196 REFERENCES 197 6 FUNDAMENTAL PHYSICS WITH ANTIHYDROGEN 203 J. S. HANGST 6.1 SOME HISTORY 203 6.2 PRODUCING ANTIHYDROGEN: ATHENA 204 6.3 DETECTING ANTIHYDROGEN: ATHENA 205 6.4 ANTIHYDROGEN AND ION TRAP PHYSICS 206 6.5 TRAPPING ANTIHDYROGEN FOR SPECTROSCOPY: ALPHA 208 6.5.1 ALPHA CONFIGURATION 209 6.5.2 DETECTING TRAPPED ANTIHYDROGEN 211 6.5.3 ANTIHYDROGEN TRAPPING 212 6.5.4 HOLDING ANTIHYDROGEN 212 6.5.5 MEASURING TRAPPED ANTIHYDROGEN 214 6.5.6 TRAPPED ANTIHYDROGEN AND ION TRAP PHYSICS 215 6.6 AUTORESONANT INJECTION OF ANTIPROTONS INTO A POSITRON PLASMA 215 6.7 EVAPORATIVE COOLING OF CHARGED ANTIMATTER PLASMAS 216 6.8 TOWARDS ANTIHYDROGEN SPECTROSCOPY 217 6.8.1 DROPPING ANTIHYDROGEN 219 REFERENCES 220 7 HIGH-PRECISION MASS MEASUREMENTS OF RADIONUCLIDES WITH PENNING TRAPS 223 MICHAEL BLOCK 7.1 IMPORTANCE OF MASSES OF RADIONUCLIDES 223 7.2 MASS MEASUREMENTS AT ON-LINE FACILITIES 225 7.3 PENNING-TRAP MASS SPECTROMETRY 227 7.4 PRODUCTION OF RADIONUCLIDES AT ON-LINE FACILITIES 227 7.4.1 TYPICAL LAYOUT OF A PENNING TRAP MASS SPECTROMETER 229 7.5 BEAM PREPARATION 230 7.5.1 BEAM PREPARATION WITH AN RFQ COOLER AND BUNCHER 231 7.5.2 PENNING TRAPS 234 7.5.3 CONTRIBUTIONS TO THE SYSTEMATIC UNCERTAINTY IN PTMS 238 7.5.4 APPLICATIONS OF HIGH-PRECISION MASS MEASUREMENTS 243 CONTENTS XIII 7.6 CONCLUSIONS 246 REFERENCES 246 8 QUANTUM INFORMATION PROCESSING WITH TRAPPED IONS 253 CHRISTIAN ROOS 8.1 INTRODUCTION 253 8.2 STORING QUANTUM INFORMATION IN TRAPPED IONS 256 8.3 PREPARATION AND DETECTION OF A QUBIT ENCODED IN A SINGLE ION 257 8.4 COHERENT MANIPULATION OF A QUBIT 259 8.4.1 LASER-ION INTERACTIONS 259 8.4.2 LASER COOLING OF SINGLE IONS 262 8.4.3 SINGLE-QUBIT GATES 266 8.5 ENTANGLING QUANTUM GATES 268 8.5.1 CIRAC-ZOLLER-TYPE GATE INTERACTIONS 270 8.5.2 QUANTUM GATES BASED ON BICHROMATIC LIGHT FIELDS 272 8.5.3 CONDITIONAL PHASE GATES 273 8.5.4 M0LMER-S0RENSEN GATES 274 8.6 QUANTUM STATE TOMOGRAPHY 275 8.7 ENTANGLED STATES AND ELEMENTARY QUANTUM PROTOCOLS 279 8.7.1 DETERMINISTIC QUANTUM TELEPORTATION 280 8.8 QUANTUM SIMULATION 282 8.9 QUANTUM INFORMATION FOR PRECISION MEASUREMENTS 283 8.10 DECOHERENCE AND SCALABILITY ISSUES 284 8.10.1 DECOHERENCE IN TRAPPED-ION EXPERIMENTS 285 8.10.2 INCREASING THE NUMBER OF QUBITS 286 8.11 OUTLOOK 287 REFERENCES 288 9 OPTICAL TRANSITIONS IN HIGHLY CHARGED IONS FOR DETECTION OF VARIATIONS IN THE FINE-STRUCTURE CONSTANT 293 A. ONG, J. C. BERENGUT AND V. V. FLAMBAUM 9.1 INTRODUCTION 293 9.2 SENSITIVITY OF ATOMIC TRANSITIONS TO A-VARIATION 296 9.3 LEVEL CROSSINGS IN HIGHLY CHARGED IONS 298 9.4 HOLE CROSSINGS 300 9.5 SCALING LAWS FOR ATOMIC CLOCKS BASED ON HIGHLY CHARGED IONS 301 9.5.1 SCALING OF THE SENSITIVITY TO A-VARIAITION 302 9.5.2 SCALING OF EJ AND MJ TRANSITION MATRIX ELEMENTS 304 9.5.3 SCALING OF POLARIZABILITY AND BLACKBODY RADIATION SHIFT 305 XIV CONTENTS 9.5.4 SCALING OF THE HYPERFINE STRUCTURE 305 9.5.5 SUMMARY OF SCALING LAWS 306 9.6 ATOMIC CALCULATIONS FOR HIGHLY CHARGED IONS 307 9.6.1 HARTREE-FOCK AND RELATIVISTIC HARTREE-FOCK 307 9.6.2 CONFIGURATION INTERACTION 308 9.6.3 COMBINING MANY-BODY PERTURBATION THEORY WITH CONFIGURATION INTERACTION 308 9.6.4 CF' 6+ : A SAMPLE CALCULATION 309 REFERENCES 312 10 EMISSION AND LASER SPECTROSCOPY OF TRAPPED HIGHLY CHARGED IONS IN ELECTRON BEAM ION TRAPS 315 JOSE R. CRESPO LOPEZ-URRUTIA AND ZOLTAN HARMAN 10.1 INTRODUCTION 315 10.2 QUANTUM ELECTRODYNAMICS STUDIES WITH TRAPPED HC1 316 10.3 HISTORICAL DEVELOPMENT OF EXPERIMENTS WITH ELECTRON BEAM ION TRAPS 317 10.4 PRODUCTION AND TRAPPING OF HIGHLY CHARGED IONS BY ELECTRON BEAMS 320 10.5 PHYSICAL PROCESSES IN THE TRAP REGION 323 10.5.1 ELECTRON IMPACT IONIZATION 324 10.5.2 ELECTRON IMPACT EXCITATION 324 10.5.3 RADIATIVE RECOMBINATION 325 10.5.4 DIELECTRONIC RECOMBINATION 326 10.6 PHOTON SPECTROSCOPY UNDER ELECTRON BEAM EXCITATION 327 10.6.1 THE X-RAY REGION: LYMAN-A TRANSITIONS OF HYDROGEN-LIKE IONS 328 10.6.2 THE HELIUMLIKE SEQUENCE: A TEST FOR INTERELECTRONIC CORRELATION 333 10.6.3 THE QED-SENSITIVE 2S\|/ 2 * 2/? 3 / 2 .]/2 TRANSITIONS IN LITHIUMLIKE IONS 335 10.6.4 SPECTROSCOPY OF FORBIDDEN TRANSITIONS IN THE VISIBLE RANGE 336 10.6.5 THE HYPERFINE STRUCTURE OF HYDROGENLIKE IONS 339 10.7 RESONANT PHOTORECOMBINATION PROCESSES 341 10.7.1 DIELECTRONIC RECOMBINATION 342 10.7.2 HIGHER-ORDER INTERACTIONS IN PHOTORECOMBINATION: TRIELECTRONIC AND QUADRUELECTRONIC TERMS 344 10.7.3 THE EFFECT OF THE BREIT INTERACTION IN THE DIELECTRONIC PROCESS 346 10.7.4 QUANTUM INTERFERENCE TERMS BETWEEN DIELECTRONIC AND RADIATIVE RECOMBINATION 347 10.7.5 RESONANT PHOTO-IONIZATION PROCESSES 348 CONTENTS XV 10.8 PHOTONIC EXCITATION: LASER SPECTROSCOPY FROM THE VISIBLE TO THE X-RAY RANGE 349 10.8.1 LASER SPECTROSCOPY IN THE SOFT X-RAY REGION AT FREE-ELECTRON LASERS 350 10.8.2 EXTENDING LASER SPECTROSCOPY INTO THE X-RAY DOMAIN 351 10.8.3 LASER EXCITATION OF FORBIDDEN TRANSITIONS IN THE VISIBLE RANGE 353 10.9 ION COOLING SCHEMES FOR SPECTROSCOPY WITH HC1 355 10.10 SUMMARY AND FUTURE DIRECTIONS 358 REFERENCES 359 11 TESTS OF THEORY IN RYDBERG STATES OF ONE-ELECTRON IONS 375 JOSEPH N. TAN AND PETER J. MOHR 11.1 INTRODUCTION 375 11.2 THE RYDBERG CONSTANT 378 11.3 THE PROTON RADIUS PUZZLE: IS QED IN TROUBLE? 379 11.3.1 SPECTROSCOPIC DATA AND THE RYDBERG CONSTANT 379 11.3.2 SCATTERING DETERMINATIONS OF THE RADII 379 11.3.3 PROTON RADIUS FROM MUONIC HYDROGEN 381 11.3.4 COMPARISON OF THE DETERMINATIONS OF THE PROTON RADIUS 382 11.3.5 COMPARISON OF THE DETERMINATIONS OF THE RYDBERG CONSTANT 384 11.4 OPTICAL TRANSITIONS BETWEEN RYDBERG STATES 385 11.5 THEORY OF RYDBERG STATES 386 11.5.1 SIMPLIFICATION OF NUCLEAR SIZE AND HIGHER-ORDER QED EFFECTS 386 11.5.2 HIGH-^-STATE ENERGY LEVELS IN HYDROGEN-LIKE ATOMS 387 11.5.3 TRANSITION FREQUENCIES AND UNCERTAINTIES 390 11.5.4 NATURAL LINE WIDTHS 391 11.6 EXPERIMENT 392 11.6.1 SOURCE OF FULLY-STRIPPED IONS 393 11.6.2 CAPTURING BARE NUCLEI IN A COMPACT PENNING TRAP 395 11.6.3 CHARGE-EXCHANGE RECOMBINATION: ONE-ELECTRON RYDBERG IONS 400 11.7 SUMMARY 401 REFERENCES 402 INDEX 405
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spelling	Fundamental physics in particle traps Wolfgang Quint ... eds. Berlin [u.a.] Springer 2014 XXI, 411 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Springer Tracts in Modern Physics 256 Teilchenfalle (DE-588)4349942-9 gnd rswk-swf Teilchenfalle (DE-588)4349942-9 s DE-604 Quint, Wolfgang Sonstige oth Erscheint auch als Online-Ausgabe 978-3-642-45201-7 Springer Tracts in Modern Physics 256 (DE-604)BV000000153 256 X:MVB text/html http://deposit.dnb.de/cgi-bin/dokserv?id=4498163&prov=M&dok_var=1&dok_ext=htm Inhaltstext DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027153850&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Fundamental physics in particle traps Springer Tracts in Modern Physics Teilchenfalle (DE-588)4349942-9 gnd
subject_GND	(DE-588)4349942-9
title	Fundamental physics in particle traps
title_auth	Fundamental physics in particle traps
title_exact_search	Fundamental physics in particle traps
title_full	Fundamental physics in particle traps Wolfgang Quint ... eds.
title_fullStr	Fundamental physics in particle traps Wolfgang Quint ... eds.
title_full_unstemmed	Fundamental physics in particle traps Wolfgang Quint ... eds.
title_short	Fundamental physics in particle traps
title_sort	fundamental physics in particle traps
topic	Teilchenfalle (DE-588)4349942-9 gnd
topic_facet	Teilchenfalle
url	http://deposit.dnb.de/cgi-bin/dokserv?id=4498163&prov=M&dok_var=1&dok_ext=htm http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027153850&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV000000153
work_keys_str_mv	AT quintwolfgang fundamentalphysicsinparticletraps

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