Nanoscience and engineering in superconductivity:
Gespeichert in:
| Weitere beteiligte Personen: | |
|---|---|
| Format: | Buch |
| Sprache: | Englisch |
| Veröffentlicht: |
Berlin [u.a.]
Springer
2010
|
| Schriftenreihe: | NanoScience and technology
|
| Schlagwörter: | |
| Links: | http://deposit.dnb.de/cgi-bin/dokserv?id=3513892&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=022592781&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| Beschreibung: | Recent advances achieved in the framework of the ESF-NES programme - the European Science Foundation 5-year Programme Nanoscience and Engineering in Superconductivity, NES. - Literaturangaben |
| Umfang: | XVIII, 395 S. Ill., graph. Darst. 24 cm |
| ISBN: | 9783642151361 9783642151378 |
Internformat
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Datensatz im Suchindex
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|---|---|
| adam_text | IMAGE 1
CONTENTS
1 GUIDED VORTEX MOTION AND VORTEX RATCHETS IN NANOSTRUCTURED
SUPERCONDUCTORS 1
ALEJANDRO V. SILHANEK, JORIS VAN DE VONDEL, AND VICTOR V. MOSHCHALKOV
1.1 INTRODUCTION 1
1.2 EQUATION OF MOTION 2
1.3 GUIDED VORTEX MOTION 5
1.3.1 TRANSVERSE ELECTRIC FIELD AND GUIDED VORTEX MOTION 5 1.3.2
EXPERIMENTAL RESULTS AND THEORETICAL INVESTIGATIONS 6 1.4 RATCHETS 11
1.4.1 BASIC INGREDIENTS 13
1.4.2 EXPERIMENTAL CONSIDERATIONS 13
1.4.3 EXPERIMENTAL RESULTS AND THEORETICAL INVESTIGATIONS 15 1.5
CONCLUSION 20
REFERENCES 21
2 HIGH-TC FILMS: FROM NATURAL DEFECTS TO NANOSTRUCTURE ENGINEERING OF
VORTEX MATTER 25
ROGER WORDENWEBER 2.1 INTRODUCTION 25
2.2 VORTEX MATTER IN HIGH-7 C SUPERCONDUCTORS 29
2.2.1 VORTEX MOTION IN IDEAL SUPERCONDUCTORS 29
2.2.2 FLUX PINNING AND SUMMATION THEORIES 30
2.2.3 PINNING MECHANISM IN HTS 35
2.3 VORTEX MANIPULATION IN HTS FILMS 35
2.3.1 VORTEX MANIPULATION VIA ARTIFICIAL STRUCTURES 36 2.3.2 THEORETICAL
CONSIDERATIONS OF VORTEX MANIPULATION VIA ANTIDOTS 39
2.3.3 EXPERIMENTAL DEMONSTRATION 45
2.4 VORTEX MATTER IN SUPERCONDUCTING DEVICES 56
2.4.1 LOW-FREQUENCY NOISE IN SQUIDS 58
2.4.2 VORTEX MATTER IN MICROWAVE DEVICES 66
2.5 CONCLUSIONS 74
REFERENCES 75
BIBLIOGRAFISCHE INFORMATIONEN HTTP://D-NB.INFO/1004409486
DIGITALISIERT DURCH
IMAGE 2
CONTENTS
ION IRRADIATION OF HIGH-TEMPERATURE SUPERCONDUCTORS AND ITS APPLICATION
FOR NANOPATTERNING 81
WOLFGANG LANG AND JOHANNES D. PEDARNIG 3.1 INTRODUCTION 81
3.2 DEFECT CREATION BY ION IRRADIATION 83
3.2.1 METHODS 83
3.2.2 ION SPECIES 84
3.2.3 ION ENERGY DEPENDENCE 85
3.2.4 ANGLE DEPENDENCE 88
3.2.5 EXPERIMENTAL RESULTS 89
3.3 ELECTRICAL PROPERTIES AFTER ION IRRADIATION 90
3.3.1 BRIEF REVIEW 90
3.3.2 EXPERIMENTAL TECHNIQUES 91
3.3.3 RESISTIVITY 91
3.3.4 HALLEFFECT 93
3.3.5 LONG-TERM STABILITY 96
3.4 NANO-PATTERNING BY MASKED ION BEAM IRRADIATION 98
3.4.1 PREVIOUS ATTEMPTS TO NANOPATTERNING OF HTS 98
3.4.2 COMPUTER SIMULATION RESULTS 99
3.4.3 EXPERIMENTAL PATTERNING TESTS 100
3.5 CONCLUSIONS AND OUTLOOK 101
REFERENCES 102
FRONTIERS PROBLEMS OF THE JOSEPHSON EFFECT: FROM MACROSCOPIC QUANTUM
PHENOMENA DECAY TO HIGH- 7C SUPERCONDUCTIVITY 105
ANTONIO BARONE, FLORIANA LOMBARDI, AND FRANCESCO TAFURI 4.1 INTRODUCTION
105
4.2 GRAIN BOUNDARY JUNCTIONS: THE TOOL 106
4.3 RETRACING D-WAVE ORDER PARAMETER SYMMETRY IN JOSEPHSON STRUCTURES
110
4.4 MACROSCOPIC QUANTUM PHENOMENA IN JOSEPHSON SYSTEMS: FUNDAMENTALS AND
LOW CRITICAL TEMPERATURE SUPERCONDUCTOR JUNCTIONS 114
4.4.1 RESISTIVELY AND CAPACITIVELY SHUNTED JUNCTION MODEL AND THE
WASHBOARD POTENTIAL 114
4.4.2 MACROSCOPIC QUANTUM TUNNELLING (MQT) AND ENERGY LEVEL QUANTIZATION
(ELQ) 116
4.4.3 DEVELOPMENTS OF QUANTUM MEASUREMENTS FOR MACROSCOPIC QUANTUM
COHERENCE EXPERIMENTS 118 4.5 MACROSCOPIC QUANTUM EFFECTS IN HIGH-7C
JOSEPHSON JUNCTIONS AND IN UNCONVENTIONAL CONDITIONS 120
4.5.1 MACROSCOPIC QUANTUM PHENOMENA IN HIGH- 7C JOSEPHSON JUNCTIONS 120
IMAGE 3
CONTENTS XI
4.5.2 SWITCHING CURRENT STATISTICS IN MODERATELY DAMPED JOSEPHSON
JUNCTIONS 125
4.5.3 MQ T CURRENT BIAS MODULATION 126
4.6 MESOSCSOPIC EFFECTS AND COHERENCE IN HTS NANOSTRUCTURES 127
4.7 CONCLUSIONS 129
REFERENCES 1 30
5 INTRINSIC JOSEPHSON TUNNELING IN HIGH-TEMPERATURE SUPERCONDUCTORS 137
A. YURGENS AND D. WINKLER 5.1 INTRODUCTION 137
5.2 SAMPLE FABRICATION 140
5.2.1 SIMPLE MESA 140
5.2.2 FLIP-CHIP ZIGZAG BRIDGES 141
5.2.3 OTHER METHODS 142
5.3 ELECTRICAL CHARACTERIZATION 143
5.3.1 I-V CURVES OF INTRINSIC JOSEPHSON JUNCTIONS IN BI2212 .... 143
5.3.2 CRITICAL CURRENT DENSITY OF INDIVIDUAL CUO PLANE 144 5.3.3
SUPERCONDUCTING CRITICAL CURRENT OF INDIVIDUAL CUO PLANES IN BI2212 144
5.3.4 TUNNELING SPECTROSCOPY 149
5.3.5 THZ RADIATION 152
5.3.6 JOULE HEATING IN MESAS 155
5.3.7 THE C-AXIS POSITIVE AND NEGATIVE MAGNETO- RESISTANCE IN A
PERPENDICULAR MAGNETIC FIELD 157
5.4 SUMMARY 159
REFERENCES 159
6 STACKED JOSEPHSON JUNCTIONS 163
S. MADSEN, N.F. PEDERSEN, AND P.L. CHRISTIANSEN 6.1 INTRODUCTION 163
6.2 MODEL 163
6.2.1 NUMERICAL METHOD 168
6.2.2 ANALYTIC SOLUTIONS 169
6.3 BUNCHING OF FLUXONS 170
6.3.1 BUNCHING DUE TO COUPLING BETWEEN EQUATIONS 170 6.3.2 BUNCHING DUE
TO BOUNDARY CONDITIONS 175
6.3.3 EXTERNAL MICROWAVE SIGNAL 178
6.3.4 EXTERNAL CAVITY 179
6.4 EXPERIMENTAL WORK 184
6.5 SUMMARY 185
REFERENCES 185
IMAGE 4
XII CONTENTS
7 POINT-CONTACT SPECTROSCOPY OF MULTIGAP SUPERCONDUCTORS 187 P. SAMUELY,
P. SZABO, Z. PRIBULOVA, AND J. KACMARCIK 7.1 POINT-CONTACT ANDREEV
REFLEXION SPECTROSCOPY 188
7.2 TWO GAPS IN MGB 2 AND DOPED MGB 2 SYSTEMS 189
7.2.1 MGB 2 189
7.2.2 ALUMINUM AND CARBON-DOPED MGB 2 195
7.3 MULTIBAND SUPERCONDUCTIVITY IN THE 122-TYPE IRON PNICTIDES 203 7.4
CONCLUSIONS 208
REFERENCES 208
8 NANOSCALE STRUCTURES AND PSEUDOGAP IN UNDER-DOPED HIGH-TC
SUPERCONDUCTORS 211
M. SAARELA AND F.V. KUSMARTSEV 8.1 INTRODUCTION 211
8.2 MICROSCOPIC ORIGIN OF TWO TYPES OF CHARGE CARRIERS 214 8.3 PSEUDOGAP
AND TWO TYPES OF CHARGE CARRIERS 220
8.4 NANOSTRUCTURES IN STM MEASUREMENTS 225
8.5 CONCLUSIONS 228
REFERENCES 228
9 SCANNING TUNNELING SPECTROSCOPY OF HIGH T C CUPRATES 23 1 IVAN
MAGGIO-APRILE, CHRISTOPHE BERTHOD, NATHAN JENKINS, YANINA FASANO,
ALEXANDRE PIRIOU, AND 0YSTEIN FISCHER 9.1 INTRODUCTION 231
9.2 BASIC PRINCIPLES OF THE STM/STS TECHNIQUE 232
9.2.1 OPERATING PRINCIPLES 232
9.2.2 TOPOGRAPHY 233
9.2.3 LOCAL TUNNELING SPECTROSCOPY 234
9.2.4 STS OF SUPERCONDUCTORS 235
9.3 SPECTRAL CHARACTERISTICS OF HTS CUPRATES 236
9.3.1 GENERAL SPECTRAL FEATURES OF HTS CUPRATES 236
9.3.2 SUPERCONDUCTING GAP AND PSEUDOGAP 238
9.4 REVEALING VORTICES AND THE STRUCTURE OF THEIR CORES BY STS 240
9.4.1 VORTEX MATTER IN CONVENTIONAL SUPERCONDUCTORS 241 9.4.2 VORTEX
MATTER IN HTS 242
9.4.3 ELECTRONIC STRUCTURE OF THE CORES 243
9.5 LOCAL ELECTRONIC MODULATIONS SEEN BY STM 246
9.5.1 LOCAL MODULATIONS OF THE SUPERCONDUCTING GAP 247 9.5.2 LOCAL
MODULATIONS OF THE DOS 249
9.5.3 SUMMARY 251
REFERENCES 252
IMAGE 5
CONTENTS XIII
10 SCANNING TUNNELLING SPECTROSCOPY OF VORTICES WITH NORMAL AND
SUPERCONDUCTING TIPS 257
J.G. RODRIGO, H. SUDEROW, AND S. VIEIRA 10.1 INTRODUCTION 257
10.2 EXPERIMENTAL: LOW TEMPERATURE STM WITH SUPERCONDUCTING TIPS 259
10.2.1 LOW TEMPERATURE STM 259
10.2.2 TIPS PREPARATION AND CHARACTERIZATION 260
10.2.3 SPECTROSCOPIE ADVANTAGES OF SUPERCONDUCTING TIPS 262 10.3
VORTICES STUDIED BY STS 265
10.3.1 THE VORTEX LATTICE: GENERAL PROPERTIES AND VISUALIZATION 265
10.3.2 NBSE 2 STUDIED WITH NORMAL AND SUPERCONDUCTING TIPS 266
10.3.3 NBSE 2 VS. NBS 2 269
10.3.4 THE VORTEX LATTICE IN THIN FILMS: A 2D VORTEX LATTICE 271 10.4
OTHER SCENARIOS FOR THE INTERPLAY OF MAGNETISM AND SUPERCONDUCTIVITY 273
10.5 SUMMARY AND PROSPECTS 277
REFERENCES 278
11 SURFACE SUPERCONDUCTIVITY CONTROLLED BY ELECTRIC FIELD 281 PAVEL
LIPAVSKY, JAN KOLACEK, AND KLAUS MORAWETZ 11.1 INTRODUCTION 281
11.2 LIMIT OF LARGE THOMAS-FERMI SCREENING LENGTH 282
11.3 DE GENNES APPROACH TO THE BOUNDARY CONDITION 284
11.4 LINK TO THE LIMIT OF LARGE SCREENING LENGTH 287
11.5 ELECTRIC FIELD EFFECT ON SURFACE SUPERCONDUCTIVITY 289 11.5.1
NUCLEATION OF SURFACE SUPERCONDUCTIVITY 289
11.5.2 SOLUTION IN DIMENSIONLESS NOTATION 290
11.5.3 SURFACE ENERGY 293
11.6 MAGNETO-CAPACITANCE 294
11.6.1 DISCONTINUITY IN MAGNETO-CAPACITANCE 295
11.6.2 ESTIMATES OF MAGNITUDE 295
11.7 SUMMARY 296
REFERENCES 297
12 POLARITY-DEPENDENT VORTEX PINNING AND SPONTANEOUS VORTEX-ANTIVORTEX
STRUCTURES IN SUPERCONDUCTOR/FERROMAGNET HYBRIDS 299
SIMON J. BENDING, MILORAD V. MILOSEVIC, AND VICTOR V. MOSHCHALKOV 12.1
INTRODUCTION 299
12.2 THEORETICAL DESCRIPTION OF F-S HYBRIDS 300
12.2.1 GINZBURG-LANDAU THEORY 300
12.2.2 LONDON THEORY 304
IMAGE 6
XIV CONTENTS
12.3 EXPERIMENTAL RESULTS 307
12.3.1 SCANNING HALL PROBE IMAGING 307
12.3.2 LOW MOMENT DOT ARRAYS WITH PERPENDICULAR MAGNETISATION 308
12.3.3 HIGH MOMENT DOT ARRAYS WITH PERPENDICULAR MAGNETISATION 311
12.3.4 HIGH MOMENT ARRAYS WITH IN-PLANE MAGNETISATION 315 12.4
CONCLUSIONS 320
REFERENCES 321
13 SUPERCONDUCTOR/FERROMAGNET HYBRIDS: BILAYERS AND SPIN SWITCHING 323
J. AARTS, C. ATTANASIO, C. BELL, C. CIRILLO, M. FLOKSTRA, AND J.M.V.D.
KNAAP 13.1 INTRODUCTION 323
13.2 SOME HISTORY OF THE FIELD 324
13.3 SAMPLE PREPARATION AND FERROMAGNET CHARACTERISTICS 327 13.4
INTERFACE TRANSPARENCY 329
13.5 DOMAIN WALLS IN S/F BILAYERS 333
13.5.1 DOMAIN WALLS IN NB/CU 43 NI57 334
13.5.2 DOMAIN WALLS IN NB/PY 336
13.6 ON THE SUPERCONDUCTING SPIN SWITCH 339
13.6.1 SPIN SWITCH EFFECTS WITH CUNI 340
13.6.2 SPIN SWITCH EFFECTS WITH PY 341
13.7 CONCLUDING REMARKS 343
REFERENCES 345
14 INTERPLAY BETWEEN FERROMAGNETISM AND SUPERCONDUCTIVITY 349
JACOB LINDER AND ASIE SUDB0 14.1 INTRODUCTION 349
14.2 ARTIFICAL SYNTHESIS: F|S HYBRID STRUCTURES 351
14.2.1 BASIC PHYSICS 351
14.2.2 QUASICLASSICAL THEORY 355
14.2.3 F|S BILAYERS 361
14.2.4 S|F[S JOSEPHSON JUNCTIONS 365
14.2.5 F|S|F SPIN-VALVES 369
14.2.6 FUTURE PROSPECTS 373
14.3 INTRINSIC COEXISTENCE: FERROMAGNETIC SUPERCONDUCTORS 374 14.3.1
EXPERIMENTAL RESULTS 374
14.3.2 PHENOMENOLOGICAL FRAMEWORK 376
14.3.3 PROBING THE PAIRING SYMMETRY 383
14.3.4 FUTURE PROSPECTS 384
REFERENCES 385
INDEX 389
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| id | DE-604.BV037440855 |
| illustrated | Illustrated |
| indexdate | 2024-12-20T15:17:06Z |
| institution | BVB |
| isbn | 9783642151361 9783642151378 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-022592781 |
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| open_access_boolean | |
| owner | DE-83 |
| owner_facet | DE-83 |
| physical | XVIII, 395 S. Ill., graph. Darst. 24 cm |
| publishDate | 2010 |
| publishDateSearch | 2010 |
| publishDateSort | 2010 |
| publisher | Springer |
| record_format | marc |
| series2 | NanoScience and technology |
| spellingShingle | Nanoscience and engineering in superconductivity Nanostruktur (DE-588)4204530-7 gnd Supraleiter (DE-588)4184140-2 gnd |
| subject_GND | (DE-588)4204530-7 (DE-588)4184140-2 |
| title | Nanoscience and engineering in superconductivity |
| title_auth | Nanoscience and engineering in superconductivity |
| title_exact_search | Nanoscience and engineering in superconductivity |
| title_full | Nanoscience and engineering in superconductivity Victor Moshchalkov ... (eds.) |
| title_fullStr | Nanoscience and engineering in superconductivity Victor Moshchalkov ... (eds.) |
| title_full_unstemmed | Nanoscience and engineering in superconductivity Victor Moshchalkov ... (eds.) |
| title_short | Nanoscience and engineering in superconductivity |
| title_sort | nanoscience and engineering in superconductivity |
| topic | Nanostruktur (DE-588)4204530-7 gnd Supraleiter (DE-588)4184140-2 gnd |
| topic_facet | Nanostruktur Supraleiter |
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