超导纳米电子学基础

作者: Anatolie Sidorenko 著

出版社: 科学出版社

出版时间: 2014-09

版次: 1

ISBN: 9787030414250

定价: 158.00

装帧: 精装

开本: 32开

纸张: 胶版纸

页数: 344页

正文语种: 简体中文

丛书: 纳米科学与技术

分类: 工程技术

8人买过

《超导纳米电子学基础》从纳米尺度的视觉解释超导中的新现象，用于发明和改进神奇的纳米电子器件与系统。内容包括奇数频率配对、非均匀超导、π-位移等超导纳米结构、纳米器件中的复杂现象与理论模型。《超导纳米电子学基础》学术水平很好，属于国际水平。对教学和科研有很大帮助。 Contents

1“Fluctuoscopy”ofSuperconductors 1

A.A.Varlamov
1.1Introduction 2

1.2ThermodynamicSuperconductiveFluctuationsClosetoTc0 3
1.2.1RatherRayleigh–JeansFieldsthanBoltzmannParticles 3
1.2.2ManifestationofSFClosetoTc 5

1.3Ginzburg–LandauTheory 9

1.3.1GLFunctional 9

1.3.2ZeroDimensionality:TheExactSolutionfortheHeatCapacityJump 10
1.3.3ZeroDimensionality:TheExactSolutionfortheFluctuationMagnetization 13
1.3.4FluctuationDiamagnetisminLeadNanoparticles 15

1.4FluctuationThermodynamicsofLayeredSuperconductorinMagneticField 17
1.4.1Lawrence–DoniachModel 17

1.4.2GeneralFormulafortheFluctuationFreeEnergyinMagneticField 19
1.4.3FluctuationMagnetizationofLayeredSuperconductoranditsCrossovers 20
1.5FluctuationConductivityofLayeredSuperconductor 23

1.5.1Time-DependentGLEquation 23

1.5.2GeneralExpressionforParaconductivity 25

1.5.3ParaconductivityofaLayeredSuperconductor 27

1.5.4In-PlaneConductivity 28

1.5.5Out-ofPlaneConductivity 29

1.5.6AnalysisoftheLimitingCases 29

1.5.7ComparisonwiththeExperiment 31

1.6QuantumSuperconductiveFluctuationsAboveHc2.0/ 33ix
1.6.1DynamicClusteringofFCPs 33

1.6.2ManifestationofQFAboveHc2.0/ 35

1.7FluctuationConductivityof2DSuperconductorinMagneticField:ACompletePicture 37References 41
2ExperimentalStudyoftheFluctuation-GovernedResistiveStateinQuasi-One-DimensionalSuperconductors 45K.Yu.Arutyunov
2.1Introduction 45

2.2TheoryBackground 46

2.3SampleFabrication 48

2.4Experiments 51

2.5ThermallyActivatedPhaseSlips(TAPS) 53

2.6QuantumPhaseSlips 57

2.7Conclusion 64
References 65

3CrossedAndreevRe.ectionandSpin-ResolvedNon-localElectronTransport 67MikhailS.KalenkovandAndreiD.Zaikin
3.1Introduction 68

3.2Spin-ResolvedTransportinBallisticSystems 70

3.2.1QuasiclassicalEquations 70

3.2.2RiccatiParameterization 71

3.2.3BoundaryConditions 72

3.2.4GreenFunctions 75

3.2.5Non-localConductance:GeneralResults 77

3.2.6Cross-Current 80

3.2.7CorrectiontoBTK 84

3.3DiffusiveFSFStructures 86

3.3.1QuasiclassicalEquations 87

3.3.2BoundaryConditions 89

3.3.3SpectralConductances 90

3.3.4I–VCurves 95

3.4ConcludingRemarks 98
References 99

4Non-localTransportinSuperconductor–FerromagnetHybridStructures 101
D.Beckmann
4.1Introduction 101

4.2Experiments 103

4.2.1F/SPointContacts 103

4.2.2SpinAccumulation 104

4.2.3ChargeImbalance 106

4.2.4CoherentSubgapTransport 108

4.2.5F/STunnelContacts 111
4.3Discussion 114
References 115

5Odd-FrequencyPairinginSuperconductingHeterostructures 117

A.A.Golubov,Y.Tanaka,Y.Asano,andY.Tanuma
5.1Introduction 118

5.2JunctionsintheDirtyLimit 119

5.3JunctionsintheCleanLimit 122

5.4Summary 129
References 129

6FerromagneticJosephsonJunctionswithCriticalCurrentDensityArti.ciallyModulatedona“Short”Scale 133
N.G.Pugach,M.Yu.Kupriyanov,E.Goldobin,D.Koelle,
R.Kleiner,A.S.Sidorenko,andC.Lacroix
6.1Introduction 134

6.2FerromagneticJosephsonJunctionswithStep-LikeInterfaceTransparency 137
6.2.1ModelforSIFSJunction 137

6.2.2SIFNSandSINFSStructures 143

6.2.3SIFNSJunctionwithFewStepsofBoundaryTransparency 147
6.2.4SIFNSJunctionsArray 149

6.3MethodfortheReliableRealizationofa'JosephsonJunction 157
6.3.1PhaseAveragingofRapidOscillationswithaNon-SinusoidalCPR 157
6.3.2Discussionofthe'JunctionConditions 162
6.4Conclusion 167
References 168

7JosephsonEffectinSFNSJosephsonJunctions 171T.Yu.Karminskaya,M.Yu.Kupriyanov,A.A.Golubov,andA.S.Sidorenko
7.1Introduction 171

7.2EffectiveDecreaseintheExchangeEnergyinS-(FN)SJosephsonStructures 173
7.2.1StructureofS-FN-SJunctionanditsMathematicalDescription 173
7.2.2AnalysisofInverseCoherenceLengthsandCriticalCurrent 177
7.3JosephsonEffectinS-FN-SStructureswithArbitraryThicknessofFerromagneticandNormalLayers 182
7.3.1PropertiesofInverseCoherenceLengthq 184

7.3.2ThicknessDependenceoftheCriticalCurrent 189

7.3.3SolutionofLinearizedUsadelEquations 193

7.3.4CalculationofCriticalCurrent 195

7.4NewGeometryofSFNSJunctions 199

7.4.1CriticalCurrentofSN-N-NSJosephsonJunction 201

7.4.2CriticalCurrentofDeviceswithFFilminWealLinkRegion 202
7.4.3CalculationofSupercurrentforSNF-NF-FNSJunction 211
7.4.4CalculationofSupercurrentforSNF-N-FNSJunction 214
7.4.5CalculationofSupercurrentforSN-NF-NSJunction 215
7.5Conclusion 216
References 217

8PhysicsandApplicationsofSuperconductingPhaseInvertersBasedonSuperconductor–Ferromagnet–SuperconductorJosephsonJunctions 219
V.V.Ryazanov
8.1Introduction 219

8.2SFSJunctions:ThicknessandTemperatureDependencesofJosephsonGroundStates 221
8.3Phase-SensitiveExperiments:PhaseInversionandSpontaneousMagneticFlux 227
8.4ApplicationsofSuperconductingPhaseInverters 239
References 246

9Point-ContactStudyoftheRare-EarthNickel-BorocarbideRNi2B2C(RDY,Dy,Ho,Er,Tm,Lu)Superconductors 249Yu.G.NaidyukandI.K.Yanson
9.1Introduction 250

9.2Experimental 250

9.3Point-ContactAndreev-Re.ectionSpectroscopyoftheSuperconductingGap 251
9.4PCSpectroscopyofElectron–Phonon(BOSON)Interaction 256
9.5Conclusion 259
References 260

10IntegratedSubmmWaveReceiver:DevelopmentandApplications 263ValeryP.Koshelets,ManfredBirk,DickBoersma,JohannesDercksen,PavelDmitriev,AndreyB.Ermakov,LyudmilaV.Filippenko,HansGolstein,RuudW.M.Hoogeveen,LeodeJong,AndreyV.Khudchenko,NickolayV.Kinev,OlegS.Kiselev,PavelV.Kudryashov,BartvanKuik,ArnodeLange,GertdeLange,IrinaL.Lapitsky,SergeyI.Pripolzin,JorisvanRantwijk,AvriM.Selig,AlexanderS.Sobolev,MikhailYuTorgashin,VladimirL.Vaks,EddeVries,GeorgWagner,andPavelA.Yagoubov
10.1Introduction 264

10.2FluxFlowOscillators 266

10.2.1Nb–AlN–NbNFFO 267

10.2.2SpectralPropertiesoftheFFO 272

10.3TELIS 280

10.3.1TELISInstrumentDesign 280

10.3.2SIRChannelDesign 283

10.3.3TELIS-SIRChannelPerformance 284

10.3.4KirunaCampaignsandPreliminaryScienceResults 289
10.3.5SIRforNoninvasiveMedicalDiagnostics 291

10.4Summary 294
References 295

11CryogenicPhase-LockingLoopSystemBasedonSISTunnelJunction 297
A.V.Khudchenko,V.P.Koshelets,andK.V.Kalashnikov
11.1Introduction 298

11.2CPDProperties 299

11.2.1PhaseCharacteristics 301

11.2.2FrequencyCharacteristics 301

11.2.3AmplitudeProperties 301

11.3CPLLSystem:DescriptionandExperimentalResults 303

11.4FFOPhase-LockingDirectlybyHM 306

11.4.1OntheTheoryofHM 306

11.4.2ExperimentalDemonstration 309

11.5Conclusions 311
References 312
Conclusion 315
Bibliography(Somerelevantbooksandreviews) 317
AbouttheEditor 319
Index 321
内容简介:
《超导纳米电子学基础》从纳米尺度的视觉解释超导中的新现象，用于发明和改进神奇的纳米电子器件与系统。内容包括奇数频率配对、非均匀超导、π-位移等超导纳米结构、纳米器件中的复杂现象与理论模型。《超导纳米电子学基础》学术水平很好，属于国际水平。对教学和科研有很大帮助。
作者简介:
目录:
Contents

1“Fluctuoscopy”ofSuperconductors 1

A.A.Varlamov
1.1Introduction 2

1.2ThermodynamicSuperconductiveFluctuationsClosetoTc0 3
1.2.1RatherRayleigh–JeansFieldsthanBoltzmannParticles 3
1.2.2ManifestationofSFClosetoTc 5

1.3Ginzburg–LandauTheory 9

1.3.1GLFunctional 9

1.3.2ZeroDimensionality:TheExactSolutionfortheHeatCapacityJump 10
1.3.3ZeroDimensionality:TheExactSolutionfortheFluctuationMagnetization 13
1.3.4FluctuationDiamagnetisminLeadNanoparticles 15

1.4FluctuationThermodynamicsofLayeredSuperconductorinMagneticField 17
1.4.1Lawrence–DoniachModel 17

1.4.2GeneralFormulafortheFluctuationFreeEnergyinMagneticField 19
1.4.3FluctuationMagnetizationofLayeredSuperconductoranditsCrossovers 20
1.5FluctuationConductivityofLayeredSuperconductor 23

1.5.1Time-DependentGLEquation 23

1.5.2GeneralExpressionforParaconductivity 25

1.5.3ParaconductivityofaLayeredSuperconductor 27

1.5.4In-PlaneConductivity 28

1.5.5Out-ofPlaneConductivity 29

1.5.6AnalysisoftheLimitingCases 29

1.5.7ComparisonwiththeExperiment 31

1.6QuantumSuperconductiveFluctuationsAboveHc2.0/ 33ix
1.6.1DynamicClusteringofFCPs 33

1.6.2ManifestationofQFAboveHc2.0/ 35

1.7FluctuationConductivityof2DSuperconductorinMagneticField:ACompletePicture 37References 41
2ExperimentalStudyoftheFluctuation-GovernedResistiveStateinQuasi-One-DimensionalSuperconductors 45K.Yu.Arutyunov
2.1Introduction 45

2.2TheoryBackground 46

2.3SampleFabrication 48

2.4Experiments 51

2.5ThermallyActivatedPhaseSlips(TAPS) 53

2.6QuantumPhaseSlips 57

2.7Conclusion 64
References 65

3CrossedAndreevRe.ectionandSpin-ResolvedNon-localElectronTransport 67MikhailS.KalenkovandAndreiD.Zaikin
3.1Introduction 68

3.2Spin-ResolvedTransportinBallisticSystems 70

3.2.1QuasiclassicalEquations 70

3.2.2RiccatiParameterization 71

3.2.3BoundaryConditions 72

3.2.4GreenFunctions 75

3.2.5Non-localConductance:GeneralResults 77

3.2.6Cross-Current 80

3.2.7CorrectiontoBTK 84

3.3DiffusiveFSFStructures 86

3.3.1QuasiclassicalEquations 87

3.3.2BoundaryConditions 89

3.3.3SpectralConductances 90

3.3.4I–VCurves 95

3.4ConcludingRemarks 98
References 99

4Non-localTransportinSuperconductor–FerromagnetHybridStructures 101
D.Beckmann
4.1Introduction 101

4.2Experiments 103

4.2.1F/SPointContacts 103

4.2.2SpinAccumulation 104

4.2.3ChargeImbalance 106

4.2.4CoherentSubgapTransport 108

4.2.5F/STunnelContacts 111
4.3Discussion 114
References 115

5Odd-FrequencyPairinginSuperconductingHeterostructures 117

A.A.Golubov,Y.Tanaka,Y.Asano,andY.Tanuma
5.1Introduction 118

5.2JunctionsintheDirtyLimit 119

5.3JunctionsintheCleanLimit 122

5.4Summary 129
References 129

6FerromagneticJosephsonJunctionswithCriticalCurrentDensityArti.ciallyModulatedona“Short”Scale 133
N.G.Pugach,M.Yu.Kupriyanov,E.Goldobin,D.Koelle,
R.Kleiner,A.S.Sidorenko,andC.Lacroix
6.1Introduction 134

6.2FerromagneticJosephsonJunctionswithStep-LikeInterfaceTransparency 137
6.2.1ModelforSIFSJunction 137

6.2.2SIFNSandSINFSStructures 143

6.2.3SIFNSJunctionwithFewStepsofBoundaryTransparency 147
6.2.4SIFNSJunctionsArray 149

6.3MethodfortheReliableRealizationofa'JosephsonJunction 157
6.3.1PhaseAveragingofRapidOscillationswithaNon-SinusoidalCPR 157
6.3.2Discussionofthe'JunctionConditions 162
6.4Conclusion 167
References 168

7JosephsonEffectinSFNSJosephsonJunctions 171T.Yu.Karminskaya,M.Yu.Kupriyanov,A.A.Golubov,andA.S.Sidorenko
7.1Introduction 171

7.2EffectiveDecreaseintheExchangeEnergyinS-(FN)SJosephsonStructures 173
7.2.1StructureofS-FN-SJunctionanditsMathematicalDescription 173
7.2.2AnalysisofInverseCoherenceLengthsandCriticalCurrent 177
7.3JosephsonEffectinS-FN-SStructureswithArbitraryThicknessofFerromagneticandNormalLayers 182
7.3.1PropertiesofInverseCoherenceLengthq 184

7.3.2ThicknessDependenceoftheCriticalCurrent 189

7.3.3SolutionofLinearizedUsadelEquations 193

7.3.4CalculationofCriticalCurrent 195

7.4NewGeometryofSFNSJunctions 199

7.4.1CriticalCurrentofSN-N-NSJosephsonJunction 201

7.4.2CriticalCurrentofDeviceswithFFilminWealLinkRegion 202
7.4.3CalculationofSupercurrentforSNF-NF-FNSJunction 211
7.4.4CalculationofSupercurrentforSNF-N-FNSJunction 214
7.4.5CalculationofSupercurrentforSN-NF-NSJunction 215
7.5Conclusion 216
References 217

8PhysicsandApplicationsofSuperconductingPhaseInvertersBasedonSuperconductor–Ferromagnet–SuperconductorJosephsonJunctions 219
V.V.Ryazanov
8.1Introduction 219

8.2SFSJunctions:ThicknessandTemperatureDependencesofJosephsonGroundStates 221
8.3Phase-SensitiveExperiments:PhaseInversionandSpontaneousMagneticFlux 227
8.4ApplicationsofSuperconductingPhaseInverters 239
References 246

9Point-ContactStudyoftheRare-EarthNickel-BorocarbideRNi2B2C(RDY,Dy,Ho,Er,Tm,Lu)Superconductors 249Yu.G.NaidyukandI.K.Yanson
9.1Introduction 250

9.2Experimental 250

9.3Point-ContactAndreev-Re.ectionSpectroscopyoftheSuperconductingGap 251
9.4PCSpectroscopyofElectron–Phonon(BOSON)Interaction 256
9.5Conclusion 259
References 260

10IntegratedSubmmWaveReceiver:DevelopmentandApplications 263ValeryP.Koshelets,ManfredBirk,DickBoersma,JohannesDercksen,PavelDmitriev,AndreyB.Ermakov,LyudmilaV.Filippenko,HansGolstein,RuudW.M.Hoogeveen,LeodeJong,AndreyV.Khudchenko,NickolayV.Kinev,OlegS.Kiselev,PavelV.Kudryashov,BartvanKuik,ArnodeLange,GertdeLange,IrinaL.Lapitsky,SergeyI.Pripolzin,JorisvanRantwijk,AvriM.Selig,AlexanderS.Sobolev,MikhailYuTorgashin,VladimirL.Vaks,EddeVries,GeorgWagner,andPavelA.Yagoubov
10.1Introduction 264

10.2FluxFlowOscillators 266

10.2.1Nb–AlN–NbNFFO 267

10.2.2SpectralPropertiesoftheFFO 272

10.3TELIS 280

10.3.1TELISInstrumentDesign 280

10.3.2SIRChannelDesign 283

10.3.3TELIS-SIRChannelPerformance 284

10.3.4KirunaCampaignsandPreliminaryScienceResults 289
10.3.5SIRforNoninvasiveMedicalDiagnostics 291

10.4Summary 294
References 295

11CryogenicPhase-LockingLoopSystemBasedonSISTunnelJunction 297
A.V.Khudchenko,V.P.Koshelets,andK.V.Kalashnikov
11.1Introduction 298

11.2CPDProperties 299

11.2.1PhaseCharacteristics 301

11.2.2FrequencyCharacteristics 301

11.2.3AmplitudeProperties 301

11.3CPLLSystem:DescriptionandExperimentalResults 303

11.4FFOPhase-LockingDirectlybyHM 306

11.4.1OntheTheoryofHM 306

11.4.2ExperimentalDemonstration 309

11.5Conclusions 311
References 312
Conclusion 315
Bibliography(Somerelevantbooksandreviews) 317
AbouttheEditor 319
Index 321

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超导纳米电子学基础

内容简介:

作者简介:

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