Verfügbarkeit: The SQUID handbook

The SQUID handbook: 1 Fundamentals and technology of SQUIDs and SQUID systems

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Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim Wiley-VCH 2004
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XVI, 395 S. Ill., graph. Darst.
ISBN:	9783527402298

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Datensatz im Suchindex

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adam_text	J. CLARKE, A. I. BRAGINSKI (EDS.) THE SQUID HANDBOOK VOL. I FUNDAMENTALS AND TECHNOLOGY OF SQUIDS AND SQUID SYSTEMS WILEY- VCH WILEY-VCH VERLAG GMBH & CO. KGAA CONTENTS PREFACE XI 1 INTRODUCTION 1 1.1 THE BEGINNING 2 1.2 SUBSEQUENT DEVELOPMENTS 5 1.3 THE DE SQUID: A FIRST LOOK 7 1.4 THE RF SQUID: A FIRST LOOK 12 1.5 CRYOGENICS AND SYSTEMS 16 1.6 INSTRUMENTS: AMPLIFIERS, MAGNETOMETERS AND GRADIOMETERS 1.7 APPLICATIONS 21 1.8 CHALLENGES AND PERSPECTIVES 24 1.9 ACKNOWLEDGMENT 26 2 SQUID THEORY 29 2.1 JOSEPHSON JUNCTIONS 30 2.1.1 RCSJ MODEL 31 2.1.2 THERMAL NOISE 37 2.1.3 THE 1//NOISE (I 0 , R FLUCTUATIONS) 41 2.2 THEORY OF THE DE SQUID 43 2.2.1 INTRODUCTION 43 2.2.2 BASIC EQUATIONS, DE SQUID POTENTIAL 44 2.2.3 THERMAL FLUCTUATIONS 50 2.2.3.1 GENERAL CONSIDERATIONS 50 2.2.3.2 NUMERICAL SIMULATIONS (LANGEVIN EQUATION) 53 2.2.3.3 ANALYTICAL THEORY OF THE DE SQUID 59 2.2.4 EFFECT OF ASYMMETRY 65 2.3 THEORY OFTHERF SQUID 70 2.3.1 INTRODUCTION 70 2.3.2 SQUID POTENTIAL AND THE EQUATION OF MOTION FOR THE PHASE DIFFERENCE 72 2.3.3 UNITARY THEORY FOR OUTPUT SIGNAL AND NOISE 76 2.3.4 NOISE AS A SMALL PERTURBATION 83 2.3.4.1 INTRODUCTION 83 , SQUID HANDBOOK.}. CLARKE AND A. I. BRAGINSKI COPYRIGHT 2004 WILEY-VCH VERLAG GMBH & CO. KGAA, WEINHEIM ISBN: 3-527-40229-2 CONTENTS 2.3.4.2 ADIABATIC OPERATION; HYSTERETIC PHASE DIAGRAM 84 2.3.4.3 NON-ADIABATIC REGIME 86 3 SQUID FABRICATION TECHNOLOGY 93 3.1 JUNCTION ELECTRODE MATERIALS AND TUNNEL BARRIERS 94 3.2 LOW-TEMPERATURE SQUID DEVICES 96 3.2.1 REFRACTORY JUNCTION ELECTRODES 96 3.2.2 TUNNEL BARRIER TECHNOLOGY 97 3.2.3 DEPOSITION TECHNIQUES 98 3.2.4 JUNCTION DEFINITION 101 3.2.5 DIELECTRIC INSULATION 102 3.2.6 PATTERNING TECHNIQUES 103 3.2.7 PASSIVE COMPONENTS FOR DEVICE FABRICATION 105 3.2.8 INTEGRATED SQUID FABRICATION PROCESS 105 3.3 HIGH-TEMPERATURE SQUID DEVICES 107 3.3.1 GENERAL REQUIREMENTS AND PROBLEMS 107 3.3.2 THIN-FILM DEPOSITION 108 3.3.3 PATTERNING TECHNIQUES 110 3.3.4 JUNCTION FABRICATION 222 3.3.5 FABRICATION OF SINGLE-LAYER DEVICES 115 3.3.6 FABRICATION OFMULTILAYER DEVICES 226 3.3.7 DEVICE PASSIVATION AND ENCAPSULATION 228 3.4 FUTURE TRENDS 228 4 SQUID ELECTRONICS 227 4.1 GENERAL 228 4.2 BASIC PRINCIPLE OF A FLUX-LOCKED LOOP 228 4.2.1 LINEARIZATION OF THE TRANSFER FUNCTION 128 4.2.2 NOISE AND DYNAMIC BEHAVIOR 232 4.2.3 INTEGRATOR TYPES 235 4.3 THE DE SQUID READOUT 237 4.3.1 FUNDAMENTALS 137 4.3.2 METHODS TO SUPPRESS PREAMPLIFIER NOISE 239 4.3.2.1 FLUX MODULATION 239 4.3.2.2 ADDITIONAL POSITIVE FEEDBACK 242 4.3.3 METHODS TO SUPPRESS 1// NOISE 143 4.3.4 FURTHER READOUT CONCEPTS 248 4.3.4.1 TWO-STAGE CONFIGURATION 248 4.3.4.2 SERIES SQUID ARRAYS 149 4.3.4.3 RELAXATION OSCILLATION SQUIDS 250 4.3.4.4 DIGITAL SQUIDS 252 4.4 THE RF SQUID READOUT 155 4.4.1 GENERAL 255 4.4.2 BASIC BUILDING BLOCKS OF RF SQUID READOUT ELECTRONICS 4.4.3 CONSTRUCTION OF THE TANK CIRCUIT 257 CONTENTS VII 4.4.4 COUPLING OF THE TANK CIRCUIT TO THE TRANSMISSION LINE 159 4.4.5 CRYOGENIC PREAMPLIFIERS 160 4.4.6 OPTIMIZATION FOR MAXIMUM SENSITIVITY 262 4.4.7 MULTIPLEXED READOUTS FOR MULTICHANNEL RFSQUID SYSTEMS 164 4.5 TRENDS IN SQUID ELECTRONICS 165 5 PRACTICAL DC SQUIDS: CONFIGURATION AND PERFORMANCE 171 5.1 INTRODUCTION 172 5.2 BASIC DE SQUID DESIGN 175 5.2.1 UNCOUPLED SQUIDS 175 5.2.2 COUPLED SQUIDS 177 5.3 MAGNETOMETERS 186 5.3.1 OVERVIEW 286 5.3.2 MAGNETOMETERS FOR HIGH SPATIAL RESOLUTION 187 5.3.3 MAGNETOMETERS FOR HIGH FIELD RESOLUTION 288 5.4 GRADIOMETERS 193 5.4.1 OVERVIEW 193 5.4.2 THIN-FILM PLANAR GRADIOMETERS 295 5.4.3 WIRE-WOUND AXIAL GRADIOMETERS 198 5.5 1/F NOISE AND OPERATION IN AMBIENT FIELD 200 5.5.1 GENERAL REMARKS ON 1/F NOISE 200 5.5.2 CRITICAL CURRENT FLUCTUATIONS 200 5.5.3 THERMALLY ACTIVATED MOTION OFVORTICES 202 5.5.4 GENERATION OF VORTICES 203 5.5.5 REDUCTION OF 1/F NOISE GENERATED BY VORTEX MOTION 205 5.5.5.1 OVERVIEW 205 5.5.5.2 VORTEX PINNING 205 5.5.5.3 NARROW LINEWIDTH DEVICE STRUCTURES 206 5.5.5.4 FLUX DAMS 207 5.6 OTHER PERFORMANCE DEGRADING EFFECTS 208 5.6.1 HYSTERESIS 208 5.6.2 RADIO-FREQUENCY INTERFERENCE 209 5.6.3 TEMPERATURE FLUCTUATIONS AND DRIFT 220 6 PRACTICAL RF SQUIDS: CONFIGURATION AND PERFORMANCE 229 6.1 INTRODUCTION 220 6.2 RFSQUID MAGNETOMETERS 220 6.2.1 PRACTICAL DEVICE OPTIMIZATION 220 6.2.2 LOW-TEMPERATURE RF SQUID MAGNETOMETERS 223 6.2.2.1 LOW-TEMPERATURE BULK MAGNETOMETERS 223 6.2.2.2 LOW-TEMPERATURE THIN-FILM MAGNETOMETERS 226 6.2.3 HIGH-TEMPERATURE RFSQUID MAGNETOMETERS 228 6.2.3.1 TECHNOLOGICAL LIMITATIONS 228 6.2.3.2 BULK HIGH-T C MAGNETOMETERS 229 6.2.3.3 EARLY THIN-FILM HIGH- T C MAGNETOMETERS 229 VIII CONTENTS 6.2.3.4 MAGNETOMETERS WITH COPLANAR RESONATORS 230 6.2.3.5 MAGNETOMETERS WITH DIELECTRIC RESONATORS 234 6.2.3.6 THIN-FILM HTS MAGNETOMETERS WITH FLUX TRANSFORMERS 235 6.3 RFSQUIDGRADIOMETERS 236 6.3.1 LOW-TEMPERATURE GRADIOMETERS 236 6.3.2 HIGH-TEMPERATURE GRADIOMETERS 236 6.3.2.1 HARDWARE RFSQUID GRADIOMETERS 236 6.3.2.2 ELECTRONIC RFSQUID GRADIOMETERS 237 6.4 LOW-FREQUENCY EXCESS NOISE IN RF SQUIDS 237 6.5 RESPONSE OF RF SQUIDS TO HIGH-FREQUENCY ELECTROMAGNETIC INTERFERENCE 239 6.6 CHARACTERIZATION AND ADJUSTMENT OF RF SQUIDS 241 6.7 THE RFSQUID VERSUS THE DE SQUID 244 6.8 CONCLUDING REMARKS AND OUTLOOK 246 7 SQUID SYSTEM ISSUES 251 7.1 INTRODUCTION 254 7.2 CRYOGENICS 255 7.2.1 INTRODUCTION 255 7.2.2 LIQUID CRYOGEN COOLING (CRYOSTATS) 256 7.2.3 CRYOGENIC REFRIGERATORS (CRYOCOOLERS) 258 7.2.3.1 INTRODUCTION 258 7.2.3.2 JOULE-THOMSON COOLERS 259 7.2.3.3 STIRLING COOLERS 260 7.2.3.4 GIFFORD-MCMAHON COOLERS 261 7.2.3.5 PULSE-TUBE COOLERS 262 7.2.3.6 COMPARISONOF CRYOCOOLERS 264 7.2.3.7 TRENDS IN CRYOCOOLING 265 7.2.4 CRYOSTAT OR CRYOCOOLER? 266 7.2.5 CRYOCOOLER-INTERFERENCE REDUCTION 267 7.2.5.1 INTERFERENCE MECHANISMS 267 7.2.5.2 TIME SEPARATION 268 7.2.5.3 SPACE SEPARATION 268 7.2.5.4 LOW-NOISE COOLERS 269 7.2.5.5 NOISE SUPPRESSION TECHNIQUES 269 7.2.6 MATERIAL PROPERTIES 270 7.3 CABLING AND ELECTRONICS 272 7.3.1 SHIELDING AND FILTERING OF NOISE SOURCES 272 7.3.1.1 INTRODUCTION TO SHIELDING EFFECTIVENESS 272 7.3.1.2 ABSORPTION 273 7.3.1.3 REFLECTION 274 7.3.1.4 HIGH-FREQUENCY SHIELDING 276 7.3.1.5 LOW-FREQUENCY SHIELDING 277 7.3.1.6 FILTERING IN AN UNSHIELDED URBAN ENVIRONMENT 281 7.3.1.7 DETERMINATION OF LOW-FREQUENCY SHIELDING, FILTERING OR NOISE CANCELLATION REQUIREMENTS 281 7.3.2 ELECTRONICS AND CABLES 283 7.3.2.1 RF SCREENING OF ELECTRONICS 283 7.3.2.2 CABLES AND CONDUCTORS 284 7.3.2.3 CABLE JUNCTIONS, TERMINATIONS, CONNECTORS AND GROUNDING 285 7.3.2.4 CROSSTALK 286 7.3.2.5 POWER CONSUMPTION AND SUPPLY 287 7.3.2.6 CHOICEOFSQUIDS AND ELECTRONICS 289 7.4 DATA ACQUISITUM AND RUDIMENTARY SIGNAL PROCESSING 289 7.4.1 INTRODUCTION 289 7.4.2 HARDWARE CONSIDERATIONS 290 7.4.3 DYNAMIC RANGE, ACCURACY AND LINEARITY 290 7.4.4 SAMPLING RATE AND SIGNAL CONDITIONING 291 7.4.5 DIGITAL SIGNAL CONDITIONING AND STORAGE 292 7.5 CHARACTERIZATION, CALIBRATION AND TESTING 292 7.5.1 INTRODUCTION 292 7.5.2 CHARACTERIZING SQUIDS 293 7.5.2.1 INTRODUCTION 293 7.5.2.2 TRANSFER COEFFICIENT 293 7.5.2.3 EFFECTIVE AREA OF A MAGNETOMETER 294 7.5.2.4 EFFECTIVE VOLUME OF A GRADIOMETER 294 7.5.2.5 SQUID NOISE AND BANDWIDTH MEASUREMENTS 295 7.5.2.6 DYNAMIC RANGE 296 7.5.2.7 SLEW RATE 296 7.5.2.8 NONLINEARITY 297 7.5.3 CHARACTERIZATION IN VARIOUS MAGNETIC FIELD SITUATIONS 298 7.5.3.1 INTRODUCTION 298 7.5.3.2 FIELD-APPLIED (FA) CHARACTERIZATION 299 7.5.3.3 FIELD-REMOVED (FR) CHARACTERIZATION 299 7.5.3.4 HYSTERESIS 301 7.5.4 CALIBRATION 301 7.5.4.1 SETTING UP CALIBRATION FIELDS 301 7.5.4.2 MAGNETOMETER AND GRADIOMETER CALIBRATION 305 7.5.5 TESTING AND PRACTICAL TIPS 305 7.5.5.1 DRIFTS AND OFFSETS 305 7.5.5.2 SQUID OR FLUX JUMPS 305 7.5.5.3 EXCESS NOISE 307 7.5.5.4 ELECTRONIC NOISE FROM OTHER SYSTEMS 307 7.5.5.5 ADEQUATE SHIELDING OF THE CRYOSTAT 307 7.5.5.6 CONSEQUENCES OF CRYOGEN BOIL-OFF 308 7.5.5.7 MECHANICAL VIBRATION 308 7.5.5.8 INCREASE IN NOISE OF THE SYSTEM COMPARED TO A SQUID 309 7.6 CONDITIONS IMPOSED ON SQUID SYSTEMS BY THE ENVIRONMENT AND APPLICATIONS 309 X I CONTENTS 7.6.1 INTRODUCTION 309 7.6.2 SIGNALS ACTING ON SQUID SYSTEMS 310 7.6.3 NOISE ACTING ON A SQUID SYSTEM 311 7.6.3.1 ENVIRONMENTAL NOISE IN STATIONARY APPLICATIONS 311 7.6.3.2 ADDITIONAL NOISE IN MOBILE INSTRUMENTATION 315 7.7 NOISE SUPPRESSION 315 7.7.1 INTRODUCTION 315 7.7.2 ACTIVE SHIELDING 325 7.7.3 NOISE CANCELLATION BY PRIMARY SENSORS 316 7.7 .4 NOISE CANCELLATION USING REFERENCES 319 7.7.4.1 INTRODUCTION 319 7.7.4.2 STATIC SYSTEMS 323 7.7.4.3 MOBILE SYSTEMS 330 7.7.5 NOISE CANCELLATION WITHOUT THE REFERENCES 332 7.8 SIGNAL AND NOISE IMPLICATIONS FOR THE SQUID SYSTEM DESIGN 335 7.8.1 INTRODUCTION 335 7.8.2 STATIC SQUID SYSTEMS 335 7.8.3 MOBILE SQUID SYSTEMS 339 7.8.4 SUMMARY OF PARAMETERS 342 7.9 CONCLUDING REMARKS AND SYSTEM TRENDS 344 APPENDIX 1 357 APPENDIX 2 367 INDEX 383
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spelling	The SQUID handbook 1 Fundamentals and technology of SQUIDs and SQUID systems J. Clarke, A. I. Braginski (eds.) Weinheim Wiley-VCH 2004 XVI, 395 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Clarke, John 1942- Sonstige (DE-588)172900204 oth Braginski, Alex I. Sonstige oth (DE-604)BV019316046 1 GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=012783600&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	The SQUID handbook
title	The SQUID handbook
title_auth	The SQUID handbook
title_exact_search	The SQUID handbook
title_full	The SQUID handbook 1 Fundamentals and technology of SQUIDs and SQUID systems J. Clarke, A. I. Braginski (eds.)
title_fullStr	The SQUID handbook 1 Fundamentals and technology of SQUIDs and SQUID systems J. Clarke, A. I. Braginski (eds.)
title_full_unstemmed	The SQUID handbook 1 Fundamentals and technology of SQUIDs and SQUID systems J. Clarke, A. I. Braginski (eds.)
title_short	The SQUID handbook
title_sort	the squid handbook fundamentals and technology of squids and squid systems
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