Verfügbarkeit: Superconductors at the nanoscale | Technische Universität München

Superconductors at the nanoscale: from basic research to applications

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Bibliographische Detailangaben
Weitere beteiligte Personen:	Wördenweber, Roger (HerausgeberIn), Moshchalkov, Victor V. 1952- (HerausgeberIn), Bending, Simon (HerausgeberIn), Tafuri, Francesco (HerausgeberIn)
Format:	Buch
Sprache:	Englisch
Veröffentlicht:	Berlin/Boston De Gruyter [2017]
Schlagwörter:	Supraleiter Nanometerbereich
Links:	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029717703&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
Umfang:	XIV, 493 Seiten Illustrationen, Diagramme 24 cm x 17 cm
ISBN:	9783110456202 3110456206

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MARC


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245	1	0	\|a Superconductors at the nanoscale \|b from basic research to applications \|c edited by Roger Wördenweber, Victor Moshchalkov, Simon Bending and Francesco Tafuri
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700	1		\|a Bending, Simon \|0 (DE-588)1141698595 \|4 edt
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Datensatz im Suchindex

_version_	1819261197956939776
adam_text	CONTENTS FOREWORD* XIII ROGER WOERDENWEBER AND JOHAN VANACKEN TUTORIAL ON NANOSTRUCTURED SUPERCONDUCTORS * 1 1 INTRODUCTION * 1 2 A BRIEF HISTORY OF SUPERCONDUCTIVITY* 1 3 SPECIFIC PROPERTIES OF SUPERCONDUCTORS * 4 4 THEORETICAL UNDERSTANDING * 4 4.1 MICROSCOPIC APPROACH OF BARDEEN, COOPER, AND SCHRIEFFER* 4 4.2 THERMODYNAMIC APPROACH OF GINZBURG AND LANDAU * 7 4.3 TYPE-1 AND TYPE-LL SUPERCONDUCTORS * 9 4.4 FLUX PINNING AND SUMMATION THEORY * 12 4.5 FLUX CREEP AND THERMALLY ASSISTED FLUX LOW * 16 4.6 JOSEPHSON EFFECTS * 17 5 APPLICATION OF SUPERCONDUCTIVITY* 21 6 SUPERCONDUCTORS AT THE NANOSCALE * 23 ISABEL GUILLAMOEN, JOSE GABRIEL RODRIGO, SEBASTIAN VIEIRA, AND HERMANN SUDEROW 1 IMAGING VORTICES IN SUPERCONDUCTORS: FROM THE ATOMIC SCALE TO MACROSCOPIC DISTANCES * 29 1.1 INTRODUCTION * 29 1.1.1 FORMALISMS TO TREAT ATOMIC SIZE TUNNELING* 31 1.1.2 ELECTRONIC SCATTERING AND FERMI WAVELENGTH * 32 1.1.3 TUNNELING WITH MULTIPLE CONDUCTANCE CHANNELS * 34 1.1.4 FROM TUNNELING INTO CONTACT: NORMAL PHASE * 35 1.1.5 FROM TUNNELING INTO CONTACT: SUPERCONDUCTING PHASE * 36 1.2 MAPPING THE SUPERCONDUCTING CONDENSATE AT THE LENGTH SCALES OF THE COHERENCE LENGTH AND BELOW * 39 1.2.1 GAP STRUCTURE AND ATOMIC SIZE TUNNELING* 39 1.2.2 GAP STRUCTURE FROM FERMI SEA OSCILLATIONS * 41 1.2.3 GAP STRUCTURE AND VORTEX SHAPE * 41 1.3 MAPPING THE SUPERCONDUCTING CONDENSATE AT LARGE SCALES * 43 1.3.1 TECHNIQUES SENSING THE LOCAL MAGNETIC FIELD * 43 1.3.2 INTRODUCTION TO THE VORTEX LATTICE WITH STM * 44 1.3.3 VORTEX LATTICE MELTING * 46 1.3.4 VORTEX LATTICE CREEP * 47 1.3.5 COMMENSURATE TO INCOMMENSURATE TRANSITIONS IN NANOSTRUCTURED SUPERCONDUCTORS* 49 1.3.6 ORDER-DISORDER TRANSITION * 51 1.4 CONCLUSIONS ------ 55 JORIS VAN DE VONDEL, BART RAES, AND ALEJANDRO V. SILHANEK 2 PROBING VORTEX DYNAMICS ON A SINGLE VORTEX LEVEL BY SCANNING AC-SUSCEPTIBILITY MICROSCOPY * 61 2.1 GENERAL INTRODUCTION TO AC SUSCEPTIBILITY* 61 2.1.1 AC RESPONSE OF A DAMPED HARMONIC OSCILLATOR* 62 2.1.2 AC RESPONSE OF A SUPERCONDUCTOR* 66 2.2 SCANNING SUSCEPTIBILITY MEASUREMENTS * 77 2.2.1 SCANNING AC-SUSCEPTIBILITY MICROSCOPY * 77 2.2.2 SSM ON A SUPERCONDUCTING STRIP, RESPONSE OF INDIVIDUAL VORTICES * 79 2.2.3 EXAMPLES OF APPLICATION OF THE SSM TECHNIQUE * 86 2.3 CONCLUSION AND OUTLOOK* 89 TRISTAN CREN, CHRISTOPHE BRUN, AND DIMITRI RODITCHEV 3 STM STUDIES OF VORTEX CORES IN STRONGLY CONFINED NANOSCALE SUPERCONDUCTORS * 93 3.1 INTRODUCTION: VORTICES IN STRONGLY CONFINED SUPERCONDUCTORS* 93 3.2 THEORETICAL APPROACH OF VORTICES CONFINED IN SYSTEMS MUCH SMALLER THAN THE PENETRATION DEPTH * 96 3.2.1 CHARACTERISTIC LENGTH SCALES * 96 3.2.2 VORTEX STATES IN SMALL SUPERCONDUCTORS* 97 3.2.3 FLUXOID ----- 99 3.2.4 ZERO-CURRENT LINE: MEISSNER VERSUS VORTEX CURRENTS* 100 3.2.5 KINETIC ENERGY BALANCE: MEISSNER STATE * 101 3.2.6 KINETIC ENERGY BALANCE: VORTEX STATE * 101 3.2.7 KINETIC ENERGY BALANCE: GIANT VORTEX STATE * 104 3.3 STM/STS STUDIES OF VORTICES IN NANOSYSTEMS * 105 3.3.1 VORTEX CORE IMAGING BY STM/STS * 105 3.3.2 STM STUDIES ON EX SITU NANOLITHOGRAPHED SAMPLES * 106 3.3.3 A MODEL SYSTEM FOR CONFINEMENT STUDIES: P B /S I(LLL) * 107 3.3.4 ULTIMATE CONFINEMENT: THE SINGLE VORTEX BOX * 108 3.3.5 CONFINEMENT EFFECT OF SUPERCURRENTS AND SURFACE SUPERCONDUCTIVITY ----- 113 3.3.6 IMAGING OF GIANT VORTEX CORES * 114 3.4 PROXIMITY JOSEPHSON VORTICES * 118 3.4.1 PROXIMITY EFFECT * 118 3.4.2 ANDREEV REFLECTION * 119 3.4.3 PROXIMITY EFFECT IN DIFFUSIVE SNS JUNCTIONS * 119 3.4.4 JOSEPHSON VORTICES IN S -N -S JUNCTIONS * 121 3.4.5 IMAGING OF JOSEPHSON PROXIMITY VORTICES * 122 3.4.6 INTERPRETATION OF THE VORTEX STRUCTURE * 125 3.5 CONCLUSION * 128 E. BABAEV, J. CARLSTROEM, M. SILAEV, AND J.M. SPEIGHT 4 TYPE-1.5 SUPERCONDUCTIVITY * 133 4.1 INTRODUCTION * 133 4.1.1 TYPE-1.5 SUPERCONDUCTIVITY* 135 4.2 THE TWO-BAND GINZBURG-LANDAU MODEL WITH ARBITRARY INTERBAND INTERACTIONS. DEFINITION OF THE COHERENCE LENGTHS AND TYPE-1.5 REGIME * 136 4.2.1 FREE ENERGY FUNCTIONAL * 136 4.3 COHERENCE LENGTHS AND INTERVORTEX FORCES AT LONG RANGE IN MULTIBAND SUPERCONDUCTORS * 139 4.4 CRITICAL COUPLING (BOGOMOLNYI POINT) 142 4.5 MICROSCOPIC THEORY OF TYPE-1.5 SUPERCONDUCTIVITY IN U( 1) MULTIBAND CASE * 143 4.5.1 MICROSCOPIC GINZBURG-LANDAU EXPANSION FOR 1/(1) TWO-BAND SYSTEM * 144 4.5.2 TEMPERATURE DEPENDENCE OF COHERENCE LENGTHS * 146 4.6 SYSTEMS WITH GENERIC BREAKDOWN OFTYPE-L/TYPE-2 DICHOTOMY * 149 4.7 STRUCTURE OF VORTEX CLUSTERS IN THE TYPE-1.5 REGIME IN A TWO-COMPONENT SUPERCONDUCTOR* 149 4.8 MACROSCOPIC SEPARATION IN DOMAINS OF DIFFERENT BROKEN SYMMETRIES IN TYPE-1.5 SUPERCONDUCTING STATE * 151 4.8.1 MACROSCOPIC PHASE SEPARATION INTO 1/(1) X 1/(1) AND 1/(1) DOMAINS IN THE TYPE-1.5 REGIME * 152 4.8.2 MACROSCOPIC PHASE SEPARATION IN 1/(1) AND U( 1) X Z2 DOMAINS IN THREE-BAND TYPE-1.5 SUPERCONDUCTORS * 152 4.8.3 NONLINEAR EFFECTS AND LONG-RANGE INTERVORTEX INTERACTION IN S + IS SUPERCONDUCTORS * 155 4.9 FLUCTUATION EFFECTS IN TYPE-1.5 SYSTEMS * 155 4.10 MISCONCEPTIONS * 158 4.11 CONCLUSION * 162 JUN-YI GE, VLADIMIR N. GLADILIN, JOFFRE GUTIERREZ, AND VICTOR V. MOSHCHALKOV 5 DIRECT VISUALIZATION OF VORTEX PATTERNS IN SUPERCONDUCTORS WITH COMPETING VORTEX-VORTEX INTERACTIONS * 165 5.1 INTRODUCTION * 165 5.2 CLASSIFICATION OF SUPERCONDUCTORS* 166 5.2.1 SINGLE-COMPONENT SUPERCONDUCTORS * 166 5.2.2 TYPE-1.5 SUPERCONDUCTORS * 169 5.3 EXPERIMENTAL * 170 5.4 TYPE-1 SUPERCONDUCTOR WITH LONG-RANGE REPULSIVE AND SHORT-RANGE ATTRACTIVE V-V INTERACTION * 171 5.4.1 FLUX PATTERNS OF THE INTERMEDIATE STATE * 171 5.4.2 TOPOLOGICAL HYSTERESIS * 174 5.4.3 QUANTIZATION OF FLUXOIDS IN THE INTERMEDIATE STATE * 175 5.4.4 DYNAMICS OF FLUX PATTERNS * 179 5.5 TYPE-LL/1 SUPERCONDUCTOR WITH SHORT-RANGE REPULSIVE AND LONG-RANGE ATTRACTIVE V-V INTERACTION * 184 5.5.1 VORTEX PHASE DIAGRAM * 184 5.5.2 VORTEX PATTERN EVOLUTION ----- 185 5.5.3 VORTEX CLUSTERS IN THE IMS * 188 5.6 CONCLUSIONS AND OUTLOOK ----- 189 ANNA PALAU, VICTOR ROUCO, ROBERTO F. LUCCAS, XAVIER OBRADORS, AND TERESA PUIG 6 VORTEX DYNAMICS IN NANOFABRICATED CHEMICAL SOLUTION DEPOSITION HIGH-TEMPERATURE SUPERCONDUCTING FILMS * 195 6.1 INTRODUCTION ----- 195 6.2 CHEMICAL SOLUTION DEPOSITION (CSD) * 196 6.2.1 PRECURSOR SOLUTION * 196 6.2.2 SOLUTION DEPOSITION * 197 6.2.3 PYROLYSIS ----- 198 6.2.4 GROWTH AND OXYGENATION * 198 6.3 ARTIFICIAL PINNING CENTERS IN CSD-YBCO FILMS * 199 6.3.1 ELECTRON BEAM LITHOGRAPHY * 201 6.3.2 FOCUSED ION BEAM LITHOGRAPHY* 202 6.4 MANIPULATING VORTEX DYNAMICS IN YBCO FILMS WITH APC * 203 6.4.1 PHYSICAL CHARACTERIZATION TECHNIQUES * 203 6.4.2 ARTIFICIALLY ORDERED PINNING CENTER ARRAYS * 207 6.5 GENERAL CONCLUSIONS * 217 ROGER WOERDENWEBER 7 ARTIFICIAL PINNING SITES AND THEIR APPLICATIONS * 221 7.1 INTRODUCTION * 221 7.2 ARTIFICIAL PINNING SITES ----- 223 7.3 VORTEX MANIPULATION VIA ANTIDOTS * 227 7.3.1 VORTEX-ANTIDOT INTERACTION AND MULTIQUANTA VORTICES * 227 7.3.2 GUIDED VORTEX MOTION * 230 7.3.3 VORTICES AT HIGH VELOCITY ----- 234 7.4 ARTIFICIAL PINNING SITES IN SUPERCONDUCTING ELECTRONIC DEVICES * 237 7.4.1 FLUX PENETRATION IN SUPERCONDUCTING ELECTRONIC DEVICES * 237 7.4.2 STRATEGICALLY POSITIONED ANTIDOTS IN JOSEPHSON-JUNCTION-BASED DEVICES * 239 7.4.3 ANTIDOTS IN MICROWAVE DEVICES * 242 7.4.4 CONCEPTS FOR FLUXONIC DEVICES * 245 7.5 CONCLUSIONS ------ 248 ENRICO SILVA, NICOLA POMPEO, AND OLEKSANDR V. DOBROVOLSKIY 8 VORTICES AT MICROWAVE FREQUENCIES * 253 8.1 INTRODUCTION * 253 8.2 VORTEX MOTION COMPLEX RESISTIVITY * 257 8.3 HIGH-FREQUENCY VORTEX DYNAMICS IN THIN FILMS * 261 8.4 MEASUREMENT TECHNIQUES * 262 8.5 MICROWAVE VORTEX RESPONSE IN S/F/S HETEROSTRUCTURES * 264 8.6 MICROWAVE VORTEX RESPONSE IN VBAZLUZO^S WITH NANORODS * 266 8.7 MICROWAVE VORTEX RESPONSE IN NB FILMS WITH NANOGROOVE ARRAYS * 269 8.8 CONCLUSION * 273 8.9 ACKNOWLEDGEMENTS* 273 ALEXANDER KORNEEV, ALEXANDER SEMENOV, DENIS VODOLAZOV, GREGORY N. GOPTSMAN, AND ROMAN SOBOLEWSKI 9 PHYSICS AND OPERATION OF SUPERCONDUCTING SINGLE-PHOTON DEVICES * 279 9.1 INTRODUCTION: WHAT IS A SUPERCONDUCTING SINGLE-PHOTON DETECTOR* 279 9.2 OPERATIONAL PRINCIPLES OF SSPDS ----- 282 9.2.1 PHOTORESPONSE OF SUPERCONDUCTING NANOSTRIPES * 282 9.2.2 SSPDS IN AN EXTERNAL MAGNETIC FIELD * 287 9.2.3 ORIGIN OF DARK COUNTS IN SSPDS * 289 9.2.4 PRODUCTION OF SSPD OUTPUT VOLTAGE PULSES * 291 9.3 METHODS OF EXPERIMENTAL INVESTIGATION AND CHARACTERIZATION OF SSPDS * 294 9.3.1 SSPD FABRICATION * 294 9.3.2 EXPERIMENTAL CHARACTERIZATION OF SSPDS * 295 9.3.3 DEMONSTRATION OF SSPD SINGLE-PHOTON SENSITIVITY AND ITS DETECTION EFFICIENCY * 296 9.3.4 MEASUREMENTS OF SSPD TIMING JITTER * 299 9.3.5 COUPLING OF INCOMING LIGHT TO SSPD AS A METHOD TO INCREASE SYSTEM DETECTION EFFICIENCY* 300 9.4 CONCLUSION AND FUTURE RESEARCH DIRECTIONS * 302 DAVIDE MASSAROTTI, THILO BAUCH, FLORIANA LOMBARDI, AND FRANCESCO TAFURI 10 JOSEPHSON AND CHARGING EFFECT IN MESOSCOPIC SUPERCONDUCTING DEVICES * 309 10.1 INTRODUCTION AND HISTORICAL BACKGROUND * 309 10.2 BRIEF INTRODUCTORY NOTES ON THE JOSEPHSON EFFECT: MAIN EQUATIONS, SCALING ENERGIES AND QUANTUM IMPLICATIONS * 310 10.2.1 JOSEPHSON EFFECT FROM QUASIPARTICLE ANDREEV-BOUND STATES * 313 10.2.2 I-V CHARACTERISTICS AND PHASE DYNAMICS, THE RESISTIVELY SHUNTED JUNCTION MODEL * 315 10.3 WHY SCALE JUNCTIONS TO THE NANOSCALE ? FROM FABRICATION TO GENERAL PROPERTIES AND MAIN PARAMETERS ----- 321 10.3.1 FABRICATION 322 10.3.2 HYBRID COPLANAR STRUCTURES: FROM 2D-GAS TO GRAPHENE AND TOPOLOGICAL INSULATOR BARRIERS * 322 10.3.3 SUBMICRON HTS JOSEPHSON JUNCTIONS, ENERGY SCALES AND MESOSCOPIC EFFECTS * 325 10.4 CHARGING EFFECTS IN ULTRASMALL JUNCTIONS * 327 10.4.1 INTRODUCTION TO SINGLE-ELECTRON TUNNELING AND PARITY EFFECT * 327 10.4.2 UNCONVENTIONAL PARITY EFFECT IN DX 2 _ Y 2 SUPERCONDUCTORS * 330 10.5 CONCLUSIONS * 332 MARIA JOSE MARTFNEZ-PEREZ AND DIETER KOELLE 11 NANOSQUIDS: BASICS & RECENT ADVANCES * 339 11.1 INTRODUCTION * 339 11.2 SQUIDS: SOME BASIC CONSIDERATIONS * 341 11.2.1 RESISTIVELY AND CAPACITIVELY SHUNTED JUNCTION MODEL * 342 11.2.2 DC SQUID BASICS ----- 343 11.2.3 SQUID READOUT * 345 11.3 NANOSQUIDS: DESIGN, FABRICATION & PERFORMANCE * 347 11.3.1 NANOSQUIDS: DESIGN CONSIDERATIONS * 347 11.3.2 NANOSQUIDS BASED ON METALLIC SUPERCONDUCTORS * 351 11.3.3 NANOSQUIDS BASED ON CUPRATE SUPERCONDUCTORS ----- 359 11.4 NANOSQUIDS FOR MAGNETIC PARTICLE DETECTION * 361 11.4.1 NANOPARTICLE POSITIONING * 361 11.4.2 MAGNETIZATION MEASUREMENTS * 364 11.4.3 SUSCEPTIBILITY MEASUREMENTS * 366 11.5 NANOSQUIDS FOR SCANNING SQUID MICROSCOPY ----- 369 11.5.1 SQUID MICROSCOPES USING DEVICES ON PLANAR SUBSTRATES ----- 369 11.5.2 SQUID-ON-TIP (SOT) MICROSCOPE * 371 11.6 SUMMARY AND OUTLOOK * 373 REINHOLD KLEINERAND HUABINGWANG 12 B^SRRCACURO INTRINSIC JOSEPHSON JUNCTION STACKS AS EMITTERS OF TERAHERTZ RADIATION * 383 12.1 INTRODUCTION * 383 12.2 GENERAL PROPERTIES OF INTRINSIC JOSEPHSON JUNCTIONS * 384 12.3 THEORETICAL CONCEPTS * 389 12.4 COHERENT THZ RADIATION FROM LARGE INTRINSIC JOSEPHSON JUNCTION STACKS * 394 ALEXANDER MELNIKOV, SERGEY MIRONOV, AND ALEXANDER BUZDIN 13 INTERFERENCE PHENOMENA IN SUPERCONDUCTOR-FERROMAGNET HYBRIDS 409 13.1 INTRODUCTION * 409 13.2 JOSEPHSON CURRENT THROUGH THE COMPOSITE FERROMAGNETIC LAYER* 411 13.3 INTERFERENCE PHENOMENA IN NANOWIRES * 422 13.3.1 BOGOLIUBOV-DE GENNES APPROACH * 423 13.3.2 GINZBURG-LANDAU APPROACH * 427 13.4 MESOSCOPIC FLUCTUATIONS * 430 13.5 CONCLUSION ----- 436 JACOB LINDERAND SOL H. JACOBSEN 14 SPIN-ORBIT INTERACTIONS, SPIN CURRENTS, AND MAGNETIZATION DYNAMICS IN SUPERCONDUCTOR/FERROMAGNET HYBRIDS * 441 14.1 SPIN-ORBIT COUPLING FROM INVERSION SYMMETRY BREAKING: NOVEL PHENOMENA IN SF STRUCTURES * 441 14.1.1 FROM SINGLET TO TRIPLET COOPER PAIRS * 442 14.1.2 SPIN-VALVE FUNCTIONALITY WITH A SINGLE FERROMAGNET * 444 14.1.3 PURE TRIPLET PROXIMITY EFFECT PROTECTED VIA PARITY SYMMETRY * 447 14.2 CONTROLLING SPIN FLOW WITH SUPERCONDUCTORS * 451 14.2.1 SPIN SUPERCURRENTS * 451 14.2.2 ENHANCED SPIN LIFETIMES AND RELAXATION LENGTHS IN SUPERCONDUCTORS* 454 14.3 MAGNETIZATION DYNAMICS AND SPIN TORQUES IN SUPERCONDUCTORS * 457 14.3.1 DOMAIN WALL MOTION IN SUPERCONDUCTING STRUCTURES * 457 14.3.2 MAGNETIZATION SWITCHING AND PG-STATES IN JOSEPHSON JUNCTIONS * 460 14.3.3 SPIN-TRANSFER TORQUES TUNABLE VIA THE SUPERCONDUCTING PHASE * 463 MARK GIFFARD BLAMIRE 15 SUPERCONDUCTOR/FERROMAGNET HYBRIDS * 473 15.1 INTRODUCTION * 473 15.2 SINGLET PROXIMITY COUPLING* 475 15.3 EXCHANGE FIELDS AND DOS SPLITTING IN SUPERCONDUCTORS * 477 15.4 TRIPLET PAIRING IN HYBRID SYSTEMS * 479 15.5 ABRIKOSOV VORTEX PINNING IN HYBRID SYSTEMS * 480 15.6 POTENTIAL APPLICATIONS * 481 INDEX* 487
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author2	Wördenweber, Roger Moshchalkov, Victor V. 1952- Bending, Simon Tafuri, Francesco
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discipline	Physik
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id	DE-604.BV044314117
illustrated	Illustrated
indexdate	2024-12-20T17:59:37Z
institution	BVB
institution_GND	(DE-588)10095502-2
isbn	9783110456202 3110456206
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-029717703
oclc_num	934812294
open_access_boolean
owner	DE-29T DE-83
owner_facet	DE-29T DE-83
physical	XIV, 493 Seiten Illustrationen, Diagramme 24 cm x 17 cm
publishDate	2017
publishDateSearch	2017
publishDateSort	2017
publisher	De Gruyter
record_format	marc
spellingShingle	Superconductors at the nanoscale from basic research to applications Supraleiter (DE-588)4184140-2 gnd Nanometerbereich (DE-588)4327473-0 gnd
subject_GND	(DE-588)4184140-2 (DE-588)4327473-0
title	Superconductors at the nanoscale from basic research to applications
title_auth	Superconductors at the nanoscale from basic research to applications
title_exact_search	Superconductors at the nanoscale from basic research to applications
title_full	Superconductors at the nanoscale from basic research to applications edited by Roger Wördenweber, Victor Moshchalkov, Simon Bending and Francesco Tafuri
title_fullStr	Superconductors at the nanoscale from basic research to applications edited by Roger Wördenweber, Victor Moshchalkov, Simon Bending and Francesco Tafuri
title_full_unstemmed	Superconductors at the nanoscale from basic research to applications edited by Roger Wördenweber, Victor Moshchalkov, Simon Bending and Francesco Tafuri
title_short	Superconductors at the nanoscale
title_sort	superconductors at the nanoscale from basic research to applications
title_sub	from basic research to applications
topic	Supraleiter (DE-588)4184140-2 gnd Nanometerbereich (DE-588)4327473-0 gnd
topic_facet	Supraleiter Nanometerbereich
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029717703&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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Inhaltsverzeichnis