Verfügbarkeit: Charged particle traps

Charged particle traps: physics and techniques of charged particle field confinement

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Bibliographische Detailangaben
Hauptverfasser:	Major, Fouad G. (VerfasserIn), Gheorghe, Viorica N. (VerfasserIn), Werth, Günter (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin [u.a.] Springer 2005
Schriftenreihe:	Springer series on atomic, optical, and plasma physics 37
Schlagworte:	Champs électromagnétiques Ions piégés Plasma (Gaz ionisés) - Confinement Refroidissement laser Electromagnetic fields Laser cooling Plasma confinement Trapped ions Teilchenfalle Geladenes Teilchen
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Literaturverz. S. 335 - 347
Beschreibung:	XI, 354 S. Ill., graph. Darst.
ISBN:	3540220437

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245	1	0	\|a Charged particle traps \|b physics and techniques of charged particle field confinement \|c F. G. Major ; V. N. Gheorghe ; G. Werth
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500			\|a Literaturverz. S. 335 - 347
650		4	\|a Champs électromagnétiques
650		4	\|a Ions piégés
650		4	\|a Plasma (Gaz ionisés) - Confinement
650		4	\|a Refroidissement laser
650		4	\|a Electromagnetic fields
650		4	\|a Laser cooling
650		4	\|a Plasma confinement
650		4	\|a Trapped ions
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650	0	7	\|a Geladenes Teilchen \|0 (DE-588)4121332-4 \|2 gnd \|9 rswk-swf
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689	0	1	\|a Geladenes Teilchen \|0 (DE-588)4121332-4 \|D s
689	0		\|5 DE-604
700	1		\|a Gheorghe, Viorica N. \|e Verfasser \|4 aut
700	1		\|a Werth, Günter \|e Verfasser \|4 aut
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Datensatz im Suchindex

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adam_text	CONTENTS PARTITRAPOPERATIONTHEORY 1INTRODUCTION .............................................. 3 1.1HISTORICALBACKGROUND................................... 3 1.2PRINCIPLESOFPARTI CLECONNEMENT........................ 10 2THEPAULTRAP ............................................ 17 2.1THEORYOFTHEIDEALPAULTRAP............................ 17 2.2MOTIONALSPECTRUMINPAULTRAP......................... 23 2.3ADIABATICAPPROXIMATION................................ 24 2.3. 1POTENTIALDEPTH.................................. 25 2.3. 2OPTIMUMTRAPPINGCONDITIONS..................... 26 2.4REALPAULTRAPS........................................ 27 2.4. 1MODELSFORIONCLOUDS............................ 28 2.5INSTABILITIESINANIMPERFECTPAULTRAP.................... 33 2.6THEROLEOFCOLLISIONSINAPAULTRAP..................... 36 2.7QUANTUMDYNAMICSINPAULTRAPS........................ 39 2.7. 1QUANTUMPARAMETRI COSCILLATO R.................... 39 2.7. 2QUANTUMDYNAMICSINIDEALPAULTRAP.............. 43 2.7. 3EECTIV EPOTENTIALS............................... 46 3THEPENNINGTRAP ........................................ 51 3.1THEORYOFTHEIDEALPENNINGTRAP........................ 51 3.2MOTIONALSPECTRUMINPENNINGTRAP...................... 56 3.3REALPENNINGTRAPS..................................... 57 3.4SHIFTOFTHEEIGENFR EQUENCIES............................. 59 3.4. 1ELECTRIC FIELDIMPERFECTIONS ........................ 59 3.4. 2MAGNETICFIELDINHOMOGENEITIES.................... 62 3.4. 3DISTORTIONS ANDMISALIGNMEN TS..................... 64 3.4. 4SPACECHARGESHIFT............................... 67 3.4. 5IMAGECHARGES................................... 68 3.5INSTABILITIESOFTHEIONMOTION............................ 68 3.6TUNINGTHETRAP........................................ 70 3.7QUANTUMDYNAMICSINIDEALPENNINGTRAP................. 72 3.7. 1SPINLESSPARTICLEDYNAMICS........................ 72 3.7. 2SPINMOTION..................................... 78 VIII CONTENTS 3.8QUANTUMDYNAMICSINREALPENNINGTRAPS................ 81 3.8. 1ELECTRIC FIELDPERTURBATIONS....................... 81 3.8. 2MAGNETICFIELDPERTURBATIONS...................... 83 3.8. 3THEGENERALHAMILTONIAN......................... 84 4OTHERTRAPS .............................................. 87 4.1COMBINEDTRAPS........................................ 87 4.1. 1EQUATIONSOFMOTION.............................. 87 4.1. 2MAGNETRON-FRE EOPERATION......................... 90 4.1. 3QUANTUMDYNAMICSINCOMBINEDTRAPS............. 91 4.2CYLINDRICALTRAPS....................................... 95 4.2. 1ELECTROSTATIC FIELDINACYLIND RICALTRAP............. 96 4.2. 2INHERENTANHARMONICIT YOFTHEFIELD................ 98 4.2. 3CONTROLFORANHARMONICITY........................ 99 4.2. 4DIPOLEFIELDINACYLIND RICALTRAP.................. 102 4.2. 5OPEN-ENDEDCYLINDRICALTRAPS..................... 105 4.3NESTEDTRAPS.......................................... 107 4.4MULTIPOLARTRAPS....................................... 108 4.5LINEARTRAPS........................................... 109 4.5. 1THEIDEALLINEARTRAP............................ 109 4.5. 2ELECTROSTATIC FIELDINALINEARQUADRUPOLETRAP...... 113 4.5. 3ELECTRIC FIELDINALINEARMULTIP OLETRAP............ 115 4.6RINGTRAPS............................................ 117 4.7PLANARPAULTRAPS...................................... 118 4.8ELECTROSTATICTRAPS..................................... 123 4.9KINGDONTRAP.......................................... 124 PARTIITRAPTECHNIQUES 5LOADINGOFTRAPS ......................................... 131 5.1IONCREATIONINSIDETRAP................................ 131 5.2IONINJECTIONFROMOUTSIDETHETRAP...................... 133 5.3POSITRONLOADING....................................... 135 6TRAPPEDCHARGEDPARTICLEDETECTION ...................... 139 6.1DESTRUCTIVEDETECTION ................................... 139 6.1. 1NONRESONANTEJECTION............................. 139 6.1. 2RESONANTEJECTION................................ 140 6.2NONDESTRUCTIVEDETECTION................................ 141 6.2. 1ELECTRONIC DETECTION.............................. 141 6.2. 2BOLOMETRICDETECTION............................. 142 6.2. 3FOURIERTRANSFORMDETECTION....................... 145 6.2. 4OPTICALDETECTION................................ 146 CONTENTS IX PARTIIINONCLASSICALSTATESOFTRAPPEDIONS 7QUANTUMSTATESOFMOTION ............................... 153 7.1FOCKSTATES............................................ 153 7.2OSCILLATORCOHERENTSTATES............................... 154 7.2. 1THEIDEALPENNINGTRAP........................... 155 7.2. 2THEHARMONICPAULTRAP.......................... 156 7.3SQUEEZEDSTATES........................................ 159 8COHERENTSTATESFORDYNAMICALGROUPS ................... 161 8.1TRAPSYMMETRI ES....................................... 161 8.2QUASIENERGYSTATESFORCOMBINEDTRAPS................... 162 8.2. 1ASINGLETRAPPEDCHARGEDPARTI CLE................. 162 8.2.2QUANTUMMULTIPARTI CLESTATES...................... 165 9STATEENGINEERINGANDRECONSTRUCTION .................... 169 9.1TRAPPEDION-LASERINTERACTIO N............................ 169 9.1. 1ATOM-FIELDHAMILTONIANS.......................... 169 9.1. 2TWO-LEVELAPPROXIMATIO N......................... 170 9.2STATECREATION......................................... 173 9.2. 1NUMBERSTATES................................... 173 9.2. 2COHERENTSTATES.................................. 174 9.2. 3SQUEEZEDSTATES.................................. 175 9.2. 4ARBIT RARYSTATES.................................. 176 9.2. 5THERMALSTATES.................................. 177 9.2. 6SCHR¨ ODINGER-CATSTATES............................ 178 9.3STATERECONSTRUCTION.................................... 183 9.3. 1WIGNERFUNCTIONS................................ 183 9.3. 2EXPERIMENTALSTATERECONSTR UCTION................. 185 PARTIVCOOLINGOFTRAPPEDCHARGEDPARTICLES 10 TRAPPEDIONTEMPERATURE ................................ 193 10.1MEASUREMENTOFIONTEMPERATUR E......................... 194 11 RADIATIVECOOLING ........................................ 197 12 BU*ERGASCOOLING ....................................... 203 12.1PAULTRAP............................................. 204 12.2PENNINGTRAP.......................................... 206 13 RESISTIV ECOOLING ......................................... 211 13.1NEGATIVEFEEDBACK...................................... 215 13.2STOCHASTICCOOLI NG...................................... 216 XCONTENTS 14 LASERCOOLING ............................................. 221 14.1PHYSICALPRINCIPLES..................................... 221 14.2DOPPLERCOOLING:SEMI-CLASSICAL THEORY.................... 223 14.3RESOLVEDSIDEBANDCOOLING.............................. 226 14.4EITCOOLI NG........................................... 233 14.5SISYPHUSCOOLI NG....................................... 236 14.6STIMULATEDRAMANCOOLING.............................. 246 14.7SYMPATHETICCOOLING.................................... 250 15 ADIABATICCOOLING ........................................ 257 PARTVTRAPPEDIONSASNONNEUTRALPLASMA 16 PLASMAPROPERTIES ........................................ 263 16.1COULOMBCORRELATIONPARAMETER.......................... 263 16.2WEAKLYCOUPLEDPLASMAS................................ 263 16.2. 1PENNINGTRAPS................................... 263 16.2.2PAULTRAPS...................................... 266 17 PLASMAOSCILLATIONS ....................................... 269 17.1ROTATINGWALLTECHNIQUE................................ 272 18 PLASMACRYSTALLIZATION .................................... 275 18.1PHASETRANSITIONS...................................... 275 18.2CHAOSANDORDER....................................... 278 18.3CRYSTALLINESTRUCTURES................................... 280 18.3.1CRYSTALSINPAULTRAPS............................ 281 18.3. 2CRYSTALSINPENNINGTRAPS......................... 290 18.3. 3CRYSTALSINSTORAGERINGS.......................... 291 19 SYMPATHETICCRYSTALLIZATION .............................. 295 AM ATHIEUEQUATIONS ....................................... 299 A.1PARAMETRICOSCILLATORS.................................. 299 BORBITSOFTRAPPEDIONS ................................... 303 CNONLINEAROSCILLATOR ...................................... 309 C.1MULTIPOLEEXPANSIONS................................... 309 C.2NORMALFORMS......................................... 310 C.3NONLINEARRESONANCES................................... 312 CONTENTS XI DGENERATINGFUNCTIONSFORQUANTUMSTATES ................ 315 D.1UNCERTAINTYRELATIO NS................................... 315 D.2GENERATINGFUNCTIONS................................... 316 D.2.1HERMITEFUNCTIONS................................ 316 D.2.2LAGUERREPOLYNOMIALS............................. 317 D.3DISPLACEMEN TOPERATORS................................. 319 D.4TIMEDEPENDENTOSCILLATO RS............................. 320 D.4.1GAUSSIANPACKETS................................. 320 D.4.2LINEARINVARIANTS................................. 322 D.4.3QUADRATICINVARIANTS.............................. 322 D.5COHERENTSTATESFORSYMPLECTIC GROUPS.................... 323 D.5.1 SP (2 , R )COHERENTSTATES.......................... 323 D.5.2LINEARDYNAMICALSYSTEMS......................... 324 ETRAPDESIGNANDELECTRONICS .............................. 327 FCHARGEDMICROPARTICLETRAPPING .......................... 331 REFERENCES .................................................... 335 INDEX ......................................................... 349
adam_txt	CONTENTS PARTITRAPOPERATIONTHEORY 1INTRODUCTION . 3 1.1HISTORICALBACKGROUND. 3 1.2PRINCIPLESOFPARTI CLECONNEMENT. 10 2THEPAULTRAP . 17 2.1THEORYOFTHEIDEALPAULTRAP. 17 2.2MOTIONALSPECTRUMINPAULTRAP. 23 2.3ADIABATICAPPROXIMATION. 24 2.3. 1POTENTIALDEPTH. 25 2.3. 2OPTIMUMTRAPPINGCONDITIONS. 26 2.4REALPAULTRAPS. 27 2.4. 1MODELSFORIONCLOUDS. 28 2.5INSTABILITIESINANIMPERFECTPAULTRAP. 33 2.6THEROLEOFCOLLISIONSINAPAULTRAP. 36 2.7QUANTUMDYNAMICSINPAULTRAPS. 39 2.7. 1QUANTUMPARAMETRI COSCILLATO R. 39 2.7. 2QUANTUMDYNAMICSINIDEALPAULTRAP. 43 2.7. 3EECTIV EPOTENTIALS. 46 3THEPENNINGTRAP . 51 3.1THEORYOFTHEIDEALPENNINGTRAP. 51 3.2MOTIONALSPECTRUMINPENNINGTRAP. 56 3.3REALPENNINGTRAPS. 57 3.4SHIFTOFTHEEIGENFR EQUENCIES. 59 3.4. 1ELECTRIC FIELDIMPERFECTIONS . 59 3.4. 2MAGNETICFIELDINHOMOGENEITIES. 62 3.4. 3DISTORTIONS ANDMISALIGNMEN TS. 64 3.4. 4SPACECHARGESHIFT. 67 3.4. 5IMAGECHARGES. 68 3.5INSTABILITIESOFTHEIONMOTION. 68 3.6TUNINGTHETRAP. 70 3.7QUANTUMDYNAMICSINIDEALPENNINGTRAP. 72 3.7. 1SPINLESSPARTICLEDYNAMICS. 72 3.7. 2SPINMOTION. 78 VIII CONTENTS 3.8QUANTUMDYNAMICSINREALPENNINGTRAPS. 81 3.8. 1ELECTRIC FIELDPERTURBATIONS. 81 3.8. 2MAGNETICFIELDPERTURBATIONS. 83 3.8. 3THEGENERALHAMILTONIAN. 84 4OTHERTRAPS . 87 4.1COMBINEDTRAPS. 87 4.1. 1EQUATIONSOFMOTION. 87 4.1. 2MAGNETRON-FRE EOPERATION. 90 4.1. 3QUANTUMDYNAMICSINCOMBINEDTRAPS. 91 4.2CYLINDRICALTRAPS. 95 4.2. 1ELECTROSTATIC FIELDINACYLIND RICALTRAP. 96 4.2. 2INHERENTANHARMONICIT YOFTHEFIELD. 98 4.2. 3CONTROLFORANHARMONICITY. 99 4.2. 4DIPOLEFIELDINACYLIND RICALTRAP. 102 4.2. 5OPEN-ENDEDCYLINDRICALTRAPS. 105 4.3NESTEDTRAPS. 107 4.4MULTIPOLARTRAPS. 108 4.5LINEARTRAPS. 109 4.5. 1THEIDEALLINEARTRAP. 109 4.5. 2ELECTROSTATIC FIELDINALINEARQUADRUPOLETRAP. 113 4.5. 3ELECTRIC FIELDINALINEARMULTIP OLETRAP. 115 4.6RINGTRAPS. 117 4.7PLANARPAULTRAPS. 118 4.8ELECTROSTATICTRAPS. 123 4.9KINGDONTRAP. 124 PARTIITRAPTECHNIQUES 5LOADINGOFTRAPS . 131 5.1IONCREATIONINSIDETRAP. 131 5.2IONINJECTIONFROMOUTSIDETHETRAP. 133 5.3POSITRONLOADING. 135 6TRAPPEDCHARGEDPARTICLEDETECTION . 139 6.1DESTRUCTIVEDETECTION . 139 6.1. 1NONRESONANTEJECTION. 139 6.1. 2RESONANTEJECTION. 140 6.2NONDESTRUCTIVEDETECTION. 141 6.2. 1ELECTRONIC DETECTION. 141 6.2. 2BOLOMETRICDETECTION. 142 6.2. 3FOURIERTRANSFORMDETECTION. 145 6.2. 4OPTICALDETECTION. 146 CONTENTS IX PARTIIINONCLASSICALSTATESOFTRAPPEDIONS 7QUANTUMSTATESOFMOTION . 153 7.1FOCKSTATES. 153 7.2OSCILLATORCOHERENTSTATES. 154 7.2. 1THEIDEALPENNINGTRAP. 155 7.2. 2THEHARMONICPAULTRAP. 156 7.3SQUEEZEDSTATES. 159 8COHERENTSTATESFORDYNAMICALGROUPS . 161 8.1TRAPSYMMETRI ES. 161 8.2QUASIENERGYSTATESFORCOMBINEDTRAPS. 162 8.2. 1ASINGLETRAPPEDCHARGEDPARTI CLE. 162 8.2.2QUANTUMMULTIPARTI CLESTATES. 165 9STATEENGINEERINGANDRECONSTRUCTION . 169 9.1TRAPPEDION-LASERINTERACTIO N. 169 9.1. 1ATOM-FIELDHAMILTONIANS. 169 9.1. 2TWO-LEVELAPPROXIMATIO N. 170 9.2STATECREATION. 173 9.2. 1NUMBERSTATES. 173 9.2. 2COHERENTSTATES. 174 9.2. 3SQUEEZEDSTATES. 175 9.2. 4ARBIT RARYSTATES. 176 9.2. 5THERMALSTATES. 177 9.2. 6SCHR¨ ODINGER-CATSTATES. 178 9.3STATERECONSTRUCTION. 183 9.3. 1WIGNERFUNCTIONS. 183 9.3. 2EXPERIMENTALSTATERECONSTR UCTION. 185 PARTIVCOOLINGOFTRAPPEDCHARGEDPARTICLES 10 TRAPPEDIONTEMPERATURE . 193 10.1MEASUREMENTOFIONTEMPERATUR E. 194 11 RADIATIVECOOLING . 197 12 BU*ERGASCOOLING . 203 12.1PAULTRAP. 204 12.2PENNINGTRAP. 206 13 RESISTIV ECOOLING . 211 13.1NEGATIVEFEEDBACK. 215 13.2STOCHASTICCOOLI NG. 216 XCONTENTS 14 LASERCOOLING . 221 14.1PHYSICALPRINCIPLES. 221 14.2DOPPLERCOOLING:SEMI-CLASSICAL THEORY. 223 14.3RESOLVEDSIDEBANDCOOLING. 226 14.4EITCOOLI NG. 233 14.5SISYPHUSCOOLI NG. 236 14.6STIMULATEDRAMANCOOLING. 246 14.7SYMPATHETICCOOLING. 250 15 ADIABATICCOOLING . 257 PARTVTRAPPEDIONSASNONNEUTRALPLASMA 16 PLASMAPROPERTIES . 263 16.1COULOMBCORRELATIONPARAMETER. 263 16.2WEAKLYCOUPLEDPLASMAS. 263 16.2. 1PENNINGTRAPS. 263 16.2.2PAULTRAPS. 266 17 PLASMAOSCILLATIONS . 269 17.1ROTATINGWALLTECHNIQUE. 272 18 PLASMACRYSTALLIZATION . 275 18.1PHASETRANSITIONS. 275 18.2CHAOSANDORDER. 278 18.3CRYSTALLINESTRUCTURES. 280 18.3.1CRYSTALSINPAULTRAPS. 281 18.3. 2CRYSTALSINPENNINGTRAPS. 290 18.3. 3CRYSTALSINSTORAGERINGS. 291 19 SYMPATHETICCRYSTALLIZATION . 295 AM ATHIEUEQUATIONS . 299 A.1PARAMETRICOSCILLATORS. 299 BORBITSOFTRAPPEDIONS . 303 CNONLINEAROSCILLATOR . 309 C.1MULTIPOLEEXPANSIONS. 309 C.2NORMALFORMS. 310 C.3NONLINEARRESONANCES. 312 CONTENTS XI DGENERATINGFUNCTIONSFORQUANTUMSTATES . 315 D.1UNCERTAINTYRELATIO NS. 315 D.2GENERATINGFUNCTIONS. 316 D.2.1HERMITEFUNCTIONS. 316 D.2.2LAGUERREPOLYNOMIALS. 317 D.3DISPLACEMEN TOPERATORS. 319 D.4TIMEDEPENDENTOSCILLATO RS. 320 D.4.1GAUSSIANPACKETS. 320 D.4.2LINEARINVARIANTS. 322 D.4.3QUADRATICINVARIANTS. 322 D.5COHERENTSTATESFORSYMPLECTIC GROUPS. 323 D.5.1 SP (2 , R )COHERENTSTATES. 323 D.5.2LINEARDYNAMICALSYSTEMS. 324 ETRAPDESIGNANDELECTRONICS . 327 FCHARGEDMICROPARTICLETRAPPING . 331 REFERENCES . 335 INDEX . 349
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author	Major, Fouad G. Gheorghe, Viorica N. Werth, Günter
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id	DE-604.BV035182614
illustrated	Illustrated
index_date	2024-07-02T22:58:31Z
indexdate	2024-07-09T21:26:53Z
institution	BVB
isbn	3540220437
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-016989345
oclc_num	57209746
open_access_boolean
owner	DE-19 DE-BY-UBM
owner_facet	DE-19 DE-BY-UBM
physical	XI, 354 S. Ill., graph. Darst.
publishDate	2005
publishDateSearch	2005
publishDateSort	2005
publisher	Springer
record_format	marc
series	Springer series on atomic, optical, and plasma physics
series2	Springer series on atomic, optical, and plasma physics
spelling	Major, Fouad G. Verfasser aut Charged particle traps physics and techniques of charged particle field confinement F. G. Major ; V. N. Gheorghe ; G. Werth Berlin [u.a.] Springer 2005 XI, 354 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Springer series on atomic, optical, and plasma physics 37 Literaturverz. S. 335 - 347 Champs électromagnétiques Ions piégés Plasma (Gaz ionisés) - Confinement Refroidissement laser Electromagnetic fields Laser cooling Plasma confinement Trapped ions Teilchenfalle (DE-588)4349942-9 gnd rswk-swf Geladenes Teilchen (DE-588)4121332-4 gnd rswk-swf Teilchenfalle (DE-588)4349942-9 s Geladenes Teilchen (DE-588)4121332-4 s DE-604 Gheorghe, Viorica N. Verfasser aut Werth, Günter Verfasser aut Springer series on atomic, optical, and plasma physics 37 (DE-604)BV013270105 37 SWB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016989345&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Major, Fouad G. Gheorghe, Viorica N. Werth, Günter Charged particle traps physics and techniques of charged particle field confinement Springer series on atomic, optical, and plasma physics Champs électromagnétiques Ions piégés Plasma (Gaz ionisés) - Confinement Refroidissement laser Electromagnetic fields Laser cooling Plasma confinement Trapped ions Teilchenfalle (DE-588)4349942-9 gnd Geladenes Teilchen (DE-588)4121332-4 gnd
subject_GND	(DE-588)4349942-9 (DE-588)4121332-4
title	Charged particle traps physics and techniques of charged particle field confinement
title_auth	Charged particle traps physics and techniques of charged particle field confinement
title_exact_search	Charged particle traps physics and techniques of charged particle field confinement
title_exact_search_txtP	Charged particle traps physics and techniques of charged particle field confinement
title_full	Charged particle traps physics and techniques of charged particle field confinement F. G. Major ; V. N. Gheorghe ; G. Werth
title_fullStr	Charged particle traps physics and techniques of charged particle field confinement F. G. Major ; V. N. Gheorghe ; G. Werth
title_full_unstemmed	Charged particle traps physics and techniques of charged particle field confinement F. G. Major ; V. N. Gheorghe ; G. Werth
title_short	Charged particle traps
title_sort	charged particle traps physics and techniques of charged particle field confinement
title_sub	physics and techniques of charged particle field confinement
topic	Champs électromagnétiques Ions piégés Plasma (Gaz ionisés) - Confinement Refroidissement laser Electromagnetic fields Laser cooling Plasma confinement Trapped ions Teilchenfalle (DE-588)4349942-9 gnd Geladenes Teilchen (DE-588)4121332-4 gnd
topic_facet	Champs électromagnétiques Ions piégés Plasma (Gaz ionisés) - Confinement Refroidissement laser Electromagnetic fields Laser cooling Plasma confinement Trapped ions Teilchenfalle Geladenes Teilchen
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016989345&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV013270105
work_keys_str_mv	AT majorfouadg chargedparticletrapsphysicsandtechniquesofchargedparticlefieldconfinement AT gheorgheviorican chargedparticletrapsphysicsandtechniquesofchargedparticlefieldconfinement AT werthgunter chargedparticletrapsphysicsandtechniquesofchargedparticlefieldconfinement

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