Verfügbarkeit: Quantum control of molecular processes

Quantum control of molecular processes:

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Bibliographische Detailangaben
Hauptverfasser:	Shapiro, Moshe 1944-2013 (VerfasserIn), Brumer, Paul (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim Wiley-VCH 2012
Ausgabe:	2., revised and enlarged ed.
Schlagworte:	Molekülphysik Optische Kohärenz Molekulardynamik Quantenoptik
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	XVII, 544 S. Ill., graph. Darst.
ISBN:	9783527409044 3527409041 9783527639724 9783527639717

Internformat

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Datensatz im Suchindex

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adam_text	IMAGE 1 VIL CONTENTS PREFACE TO THE SECOND EDITION XIII PREFACE TO THE FIRST EDITION XV 1 PRELIMINARIES OF THE INTERACTION OF LIGHT WITH MATTER 1 2 WEAK-FIELD PHOTODISSOCIATION 5 2.1 PHOTOEXCITATION OF A MOLECULE WITH A PULSE OF LIGHT 6 2.2 STATE PREPARATION DURING THE PULSE S 2.3 PHOTODISSOCIATION 13 2.3.1 GENERAL FORMALISM 13 2.3.2 ELECTRONIC STATES 20 2.3.3 ENERGY-RESOLVED QUANTITIES 21 2.A APPENDIX: MOLECULAR STATE LIFETIME IN PHOTODISSOCIATION 22 3 WEAK-FIELD COHERENT CONTROL 25 3.1 TRADITIONAL EXCITATION 25 3.2 PHOTODISSOCIATION FROM A SUPERPOSITION STATE 26 3.2.1 BICHROMATIC CONTROL 28 'S.2.2 ENERGY AVERAGING AND SATELLITE CONTRIBUTIONS 31 3.3 THE PRINCIPLE OF COHERENT CONTROL 33 3.4 INTERFERENCE BETWEEN N-PHOTON AND M-PHOTON ROUTES 35 3 A.I MULTIPHOTON ABSORPTION 35 3.4.2 ONE- VS. THREE-PHOTON INTERFERENCE 39 3.4.2.1 ONE- VS. THREE-PHOTON INTERFERENCE: THREE-DIMENSIONAL FORMALISM 41 3.4.3 ONE- VS. TWO-PHOTON INTERFERENCE: SYMMETRY BREAKING 50 3.5 POLARIZATION CONTROL OF DIFFERENTIAL CROSS SECTIONS 56 3.6 PUMP-DUMP CONTROL: FEW LEVEL EXCITATION 57 3.A APPENDIX: MODE-SELECTIVE CHEMISTRY 68 4 CONTROL OF INTRAMOLECULAR DYNAMICS 71 4.1 INTRAMOLECULAR DYNAMICS 71 4.1.1 TIME EVOLUTION AND THE ZERO-ORDER BASIS 72 4.1.2 PARTITIONING OF THE HUBERT SPACE 73 BIBLIOGRAFISCHE INFORMATIONEN HTTP://D-NB.INFO/1013143930 DIGITALISIERT DURCH IMAGE 2 VIII CONTENTS 4.1.3 INITIAL STATE CONTROL AND OVERLAPPING RESONANCES 75 4.1.3.1 INTERNAL CONVERSION IN PYRAZINE 77 4.1.3.2 INTRAMOLECULAR VIBRATIONAL REDISTRIBUTION: OCS 78 5 OPTIMAL CONTROL THEORY 83 5.1 PUMP-DUMP EXCITATION WITH MANY LEVELS: THE TANNOR-RICE SCHEME 83 5.2 OPTIMAL CONTROL THEORY 89 5.2.1 GENERAL PRINCIPLES OF OPTIMAL CONTROL THEORY 89 6 DECOHERENCE AND ITS EFFECTS ON CONTROL 95 6.1 DECOHERENCE 95 6.1.1 MASTER EQUATIONS 98 6.2 SAMPLE COMPUTATIONAL RESULTS ON DECOHERENCE 100 6.2.1 ELECTRONIC DECOHERENCE 100 6.2.2 VIBRATIONAL DECOHERENCE IN CONDENSED PHASES 102 6.2.3 DECOHERENCE: TOWARDS THE CLASSICAL LIMIT 106 6.3 ENVIRONMENTAL EFFECTS ON CONTROL: SOME THEOREMS 109 6.3.1 ENVIRONMENT CAN LIMIT CONTROL 109 6.3.2 ENVIRONMENT CAN ENHANCE CONTROL 112 6.3.2.1 ENVIRONMENTALLY ASSISTED TRANSPORT 112 6.3.3 ENVIRONMENTALLY ASSISTED ONE-PHOTON PHASE CONTROL 114 6.3.4 ISOLATED MOLECULES 116 6.3.5 NONISOLATED SYSTEMS 117 6.4 DECOHERENCE AND CONTROL 119 6.4.1 THE OPTICAL BLOCH EQUATION 120 6.4.1.1 DECOHERENCE EFFECTS IN ONE-PHOTON VS. THREE-PHOTON ABSORPTION 121 6.4.2 COUNTERING COLLISIONAL EFFECTS 126 6.4.3 ADDITIONAL CONTROL STUDIES 129 6.4.4 STATE STABILITY AGAINST DECOHERENCE 133 6.4.5 OVERLAPPING RESONANCES AND DECOHERENCE CONTROL: QUALITATIVE MOTIVATION 135 6.4.6 CONTROL OF DEPHASING 139 6.5 COUNTERING PARTIALLY COHERENT LASER EFFECTS IN PUMP-DUMP CONTROL 142 6.6 COUNTERING CW LASER JITTER 149 6.6.1 LASER PHASE ADDITIVITY 150 6.6.2 INCOHERENT INTERFERENCE CONTROL 151 7 CASE STUDIES IN COHERENT CONTROL 153 7.1 TWO-PHOTON VS. TWO-PHOTON CONTROL 153 7.1.1 EXPERIMENTAL IMPLEMENTATION 160 7.2 CONTROL OVER THE REFRACTIVE INDEX 169 7.2.1 BICHROMATIC CONTROL 171 7.3 THE MOLECULAR PHASE IN THE PRESENCE OF RESONANCES 176 IMAGE 3 CONTENTS IX 7.3.1 THEORY OF SCATTERING RESONANCES 178 7.3.2 THREE-PHOTON VS. ONE-PHOTON COHERENT CONTROL IN THE PRESENCE OF RESONANCES 182 7.3.2.1 CASE (A): AN INDIRECT TRANSITION TO AN ISOLATED RESONANCE 184 7.3.2.2 CASE (B): A PURELY DIRECT TRANSITION TO THE CONTINUUM 184 7.3.2.3 CASE (C): AN INDIRECT TRANSITION TO A SET OF OVERLAPPING RESONANCES 185 7.3.2 A CASE (D): A SUM OF DIRECT AND INDIRECT TRANSITION TO AN ISOLATED RESONANCE 185 7.4 CONTROL OF CHAOTIC DYNAMICS 186 8 COHERENT CONTROL OF BIMOLECULAR PROCESSES 191 8.1 FIXED ENERGY SCATTERING: ENTANGLED INITIAL STATES 191 8.1.1 ISSUES IN THE PREPARATION OF THE SCATTERING SUPERPOSITION 193 8.1.2 IDENTICAL PARTICLE COLLISIONS 195 8.1.3 SAMPLE CONTROL RESULTS 198 8.1.3.1 M SUPERPOSITIONS 198 8.1.3.2 CONTROL IN COLD ATOMS: PENNING VS. DISSOCIATIVE IONIZATION 201 8.1.3.3 CONTROL IN ELECTRON IMPACT DISSOCIATION 207 8.1.4 EXPERIMENTAL IMPLEMENTATION: FIXED TOTAL ENERGY 211 8.1.5 OPTIMAL CONTROL OF BIMOLECULAR SCATTERING 212 8.1.5.1 OPTIMIZED BIMOLECULAR SCATTERING: THE TOTAL SUPPRESSION OF A REACTIVE EVENT 214 8.1.6 SCULPTED IMPLODING WAVES 216 8.2 TIME DOMAIN: FAST TIMED COLLISIONS 217 8.2.1 NONENTANGLED WAVE PACKET SUPERPOSITIONS: TIME-DEPENDENT SCATTERING 217 8.2.2 ENTANGLED OR WAVE PACKETS? 220 9 THE INTERACTION OF LIGHT WITH MATTER: A CLOSER LOOK 223 9.1 CLASSICAL ELECTRODYNAMICS OF A PULSE OF LIGHT 223 9.1.1 THE CLASSICAL HAMILTONIAN 223 9.1.2 THE FREE LIGHT FIELD 226 9.2 THE DYNAMICS OF QUANTIZED PARTICLES AND CLASSICAL LIGHT FIELDS 228 10 COHERENT CONTROL WITH QUANTUM LIGHT 233 10.1 THE QUANTIZATION OF THE ELECTROMAGNETIC FIELD 233 10.1.1 LIGHT-MATTER INTERACTIONS 235 10.2 QUANTUM LIGHT AND QUANTUM INTERFERENCE 236 10.2.1 ONE-PHOTON VS. TWO-PHOTON QUANTUM FIELD CONTROL 238 10.2.1.1 USE OF NUMBER STATES 238 10.2.1.2 USE OF COHERENT STATES 239 10.2.2 PUMP-DUMP COHERENT CONTROL 240 IMAGE 4 X CONTENTS 10.2.2.1 RESULTS WITH QUANTIZED LIGHT 240 10.2.2.2 RESULTS WITH CLASSICAL FIELDS 242 10.2.3 PHASE-INDEPENDENT CONTROL 243 10.3 QUANTUM FIELD CONTROL OF ENTANGLEMENT 245 10.3.1 LIGHT-MATTER ENTANGLEMENT 245 10.3.2 CREATING ENTANGLEMENT BETWEEN A CHAIN OF MOLECULES AND A RADIATION FIELD 247 10.4 CONTROL OF ENTANGLEMENT IN QUANTUM FIELD CHIRAL SEPARATION 250 11 COHERENT CONTROL BEYOND THE WEAK-FIELD REGIME: BOUND STATES AND RESONANCES 253 11.1 ADIABATIC POPULATION TRANSFER 253 11.1.1 ADIABATIC STATES, TRAPPING, AND ADIABATIC FOLLOWING 254 11.1.2 THE MULTISTATE EXTENSION OF STI RAP 260 11.2 AN ANALYTIC SOLUTION OF THE NONDEGENERATE QUANTUM CONTROL PROBLEM 261 11.3 THE DEGENERATE QUANTUM CONTROL PROBLEM 266 11.4 ADIABATIC ENCODING AND DECODING OF QUANTUM INFORMATION 271 11.5 MULTISTATE PIECEWISE ADIABATIC PASSAGE 275 11.5.1 MULTISTATE PIECEWISE ADIABATIC PASSAGE - EXPERIMENTS 280 11.5.1.1 CHIRPED ADIABATIC PASSAGE 281 11.5.1.2 RABI FLOPPING 283 11.6 ELECTROMAGNETICALLY INDUCED TRANSPARENCY 290 11.6.1 EIT: A RESONANCE PERSPECTIVE 291 11.6.2 EIT AS EMERGING FROM THE INTERFERENCE BETWEEN RESONANCES 293 11.6.2.1 UNSTRUCTURED CONTINUA 300 11.6.2.2 STRUCTURED CONTINUA 300 11.6.3 PHOTOABSORPTION 301 11.6.4 THE RESONANCE DESCRIPTION OF SLOWING DOWN OF LIGHT BY EIT 306 12 PHOTODISSOCIATION BEYOND THE WEAK-FIELD REGIME 315 12.1 ONE-PHOTON DISSOCIATION WITH LASER PULSES 315 12.1.1 SLOWLY VARYING CONTINUUM 318 12.1.2 BICHROMATIC CONTROL 319 12.1.3 RESONANCE 319 12.2 COMPUTATIONAL EXAMPLES 325 13 COHERENT CONTROL BEYOND THE WEAK-FIELD REGIME: THE CONTINUUM 329 13.1 CONTROL OVER POPULATION TRANSFER TO THE CONTINUUM BY TWO-PHOTON PROCESSES 329 13.1.1 THE ADIABATIC APPROXIMATION FOR A FINAL CONTINUUM MANIFOLD 330 13.2 PULSED INCOHERENT INTERFERENCE CONTROL 335 13.3 RESONANTLY ENHANCED PHOTOASSOCIATION 345 IMAGE 5 CONTENTS XI 13.3.1 THEORY OF PHOTOASSOCIATION OF A COHERENT WAVE PACKET 346 13.3.2 PHOTOASSOCIATION BY THE CONSECUTIVE APPLICATION OF APC AND STI RAP 353 13.3.3 INTERFERENCE BETWEEN DIFFERENT PATHWAYS 357 13.3.4 EXPERIMENTAL REALIZATIONS 359 13.4 LASER CATALYSIS 363 13.4.1 THE COUPLING OF A BOUND STATE TO TWO CONTINUA BY A LASER PULSE 364 14 COHERENT CONTROL OF THE SYNTHESIS AND PURIFICATION OF CHIRAL MOLECULES 373 14.1 PRINCIPLES OF ELECTRIC DIPOLE ALLOWED ENANTIOMERIC CONTROL 374 14.2 SYMMETRY BREAKING IN THE TWO-PHOTON DISSOCIATION OF PURE STATES 376 14.3 PURIFICATION OF RACEMIC MIXTURES BY "LASER DISTILLATION" 381 14.4 ENANTIOMER CONTROL: ORIENTED MOLECULES 395 14.5 ADIABATIC PURIFICATION OF MIXTURES OF RIGHT-HANDED AND LEFT-HANDED CHIRAL MOLECULES 397 14.5.1 VIBRATIONAL STATE DISCRIMINATION OF CHIRAL MOLECULES 399 14.5.2 SPATIAL SEPARATION OF ENANTIOMERS 404 14.5.3 INTERNAL HAMILTONIAN AND DRESSED STATES 405 14.5.4 LASER CONFIGURATION 408 14.5.5 SPATIAL SEPARATION USING A COLD MOLECULAR TRAP 409 14.A APPENDIX: COMPUTATION OF B- A- B' ENANTIOMER SELECTIVITY 413 15 STRONG-FIELD COHERENT CONTROL 415 15.1 STRONG-FIELD PHOTODISSOCIATION WITH CONTINUOUS WAVE QUANTIZED FIELDS 415 15.1.1 THE COUPLED-CHANNELS EXPANSION 419 15.1.2 NUMBER STATES VS. CLASSICAL LIGHT 423 15.2 STRONG-FIELD PHOTODISSOCIATION WITH PULSED QUANTIZED FIELDS 425 15.2.1 LIGHT-INDUCED POTENTIALS 426 15.3 CONTROLLED FOCUSING, DEPOSITION, AND ALIGNMENT OF MOLECULES 429 15.3.1 FOCUSING AND DEPOSITION 429 15.3.2 STRONG-FIELD MOLECULAR ALIGNMENT 435 16 COHERENT CONTROL WITH FEW-CYCLE PULSES 443 16.1 THE CARRIER ENVELOPE PHASE 443 16.2 COHERENT CONTROL AND THE CEO FREQUENCY MEASUREMENT 445 16.3 THE RECOLLISION MODEL 446 16.3.1 STEP 1: TUNNEL IONIZATION 447 16.3.2 STEP 2: CLASSICAL "SWING" MOTION 448 16.3.3 STEP 3: RECOLLISION 448 16.3.4 STEP 4: EMISSION OF A PHOTON 450 16.4 CEP STABILIZATION AND CONTROL 451 16.4.1 THE ATTOSECOND STREAK CAMERA 452 16.5 COHERENT CONTROL OF SAMPLE MOLECULAR SYSTEMS 453 IMAGE 6 XII CONTENTS 16.5.1 ONE-PHOTON VS. TWO-PHOTON CONTROL WITH FEW-CYCLE PULSES 453 16.5.1.1 BACKWARD-FORWARD ASYMMETRY IN THE DISSOCIATIVE PHOTOIONIZATIONOF D2. 453 16.5.2 CONTROL OF THE GENERATION OF HIGH-HARMONICS 455 16.5.3 CONTROL OF ELECTRON TRANSFER PROCESSES 456 16.5.4 ELECTRON TRANSFER IN ALKALI HALIDES 457 17 CASE STUDIES IN OPTIMAL CONTROL 463 17.1 CREATING EXCITED STATES 463 17.1.1 USING PREPARED STATES 467 17.2 OPTIMAL CONTROL IN THE PERTURBATIVE DOMAIN 468 17.3 ADAPTIVE FEEDBACK CONTROL 472 17.4 ANALYSIS OF ADAPTIVE FEEDBACK EXPERIMENTS 480 17.4.1 TRANS-CIS ISOMERIZATION IN 3,3'-DIETHYL-2,2'-THIACYANINE IODIDE 480 17.4.2 CONTROLLED STOKES EMISSION VS. VIBRATIONAL EXCITATION IN METHANOL 486 17.5 INTERFERENCE AND OPTIMAL CONTROL 487 18 COHERENT CONTROL IN THE CLASSICAL LIMIT 491 18.1 THE ONE-PHOTON VS. TWO-PHOTON SCENARIO REVISITED 491 18.1.1 RESONANT REGIME 491 18.1.2 OFF-RESONANT EXTENSION 492 18.1.3 A THREE-STATE EXAMPLE 494 18.1.4 QUANTUM FEATURES 495 18.2 THE QUARTIC OSCILLATOR 496 18.3 CONTROL IN AN OPTICAL LATTICE 499 18.3.1 EQUIVALENCE WITH DIPOLE DRIVING 501 18.3.2 COMPUTATIONAL RESULTS 502 APPENDIX COMMON NOTATION USED IN THE BOOK (IN ORDER OF APPEARANCE) 507 REFERENCES 513 SUBJECT INDEX 537
any_adam_object	1
author	Shapiro, Moshe 1944-2013 Brumer, Paul
author_GND	(DE-588)1018150749 (DE-588)1018150781
author_facet	Shapiro, Moshe 1944-2013 Brumer, Paul
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dewey-full	535.2
dewey-hundreds	500 - Natural sciences and mathematics
dewey-ones	535 - Light and related radiation
dewey-raw	535.2
dewey-search	535.2
dewey-sort	3535.2
dewey-tens	530 - Physics
discipline	Chemie / Pharmazie Physik
edition	2., revised and enlarged ed.
format	Book
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illustrated	Illustrated
indexdate	2024-07-21T00:18:57Z
institution	BVB
isbn	9783527409044 3527409041 9783527639724 9783527639717
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-024625246
oclc_num	751755101
open_access_boolean
owner	DE-11 DE-19 DE-BY-UBM DE-703 DE-20
owner_facet	DE-11 DE-19 DE-BY-UBM DE-703 DE-20
physical	XVII, 544 S. Ill., graph. Darst.
publishDate	2012
publishDateSearch	2012
publishDateSort	2012
publisher	Wiley-VCH
record_format	marc
spelling	Shapiro, Moshe 1944-2013 Verfasser (DE-588)1018150749 aut Quantum control of molecular processes Moshe Shapiro and Paul Brumer 2., revised and enlarged ed. Weinheim Wiley-VCH 2012 XVII, 544 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Molekülphysik (DE-588)4039979-5 gnd rswk-swf Optische Kohärenz (DE-588)4519405-1 gnd rswk-swf Molekulardynamik (DE-588)4170370-4 gnd rswk-swf Quantenoptik (DE-588)4047990-0 gnd rswk-swf Molekülphysik (DE-588)4039979-5 s Quantenoptik (DE-588)4047990-0 s DE-604 Optische Kohärenz (DE-588)4519405-1 s Molekulardynamik (DE-588)4170370-4 s Brumer, Paul Verfasser (DE-588)1018150781 aut X:MVB text/html http://deposit.dnb.de/cgi-bin/dokserv?id=3847397&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=024625246&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Shapiro, Moshe 1944-2013 Brumer, Paul Quantum control of molecular processes Molekülphysik (DE-588)4039979-5 gnd Optische Kohärenz (DE-588)4519405-1 gnd Molekulardynamik (DE-588)4170370-4 gnd Quantenoptik (DE-588)4047990-0 gnd
subject_GND	(DE-588)4039979-5 (DE-588)4519405-1 (DE-588)4170370-4 (DE-588)4047990-0
title	Quantum control of molecular processes
title_auth	Quantum control of molecular processes
title_exact_search	Quantum control of molecular processes
title_full	Quantum control of molecular processes Moshe Shapiro and Paul Brumer
title_fullStr	Quantum control of molecular processes Moshe Shapiro and Paul Brumer
title_full_unstemmed	Quantum control of molecular processes Moshe Shapiro and Paul Brumer
title_short	Quantum control of molecular processes
title_sort	quantum control of molecular processes
topic	Molekülphysik (DE-588)4039979-5 gnd Optische Kohärenz (DE-588)4519405-1 gnd Molekulardynamik (DE-588)4170370-4 gnd Quantenoptik (DE-588)4047990-0 gnd
topic_facet	Molekülphysik Optische Kohärenz Molekulardynamik Quantenoptik
url	http://deposit.dnb.de/cgi-bin/dokserv?id=3847397&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=024625246&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT shapiromoshe quantumcontrolofmolecularprocesses AT brumerpaul quantumcontrolofmolecularprocesses

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