Verfügbarkeit: Molecular magnets

Molecular magnets: physics and applications

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Bibliographische Detailangaben
Weitere Verfasser:	Bartolomé, Juan (HerausgeberIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin [u.a.] Springer 2014
Schriftenreihe:	NanoScience and Technology
Schlagworte:	Molekularer Nanomagnet
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	XVI, 395 S. Ill., graph. Darst.
ISBN:	3642406084 9783642406089

Internformat

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Datensatz im Suchindex

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adam_text	CONTENTS PART I TUNNELING OF SINGLE MOLECULE MAGNETS 1 FROM QUANTUM RELAXATION TO RESONANT SPIN TUNNELING 3 JAVIER TEJADA 1.1 HISTORIC NOTES 3 1.2 EARLY EXPERIMENTS ON MAGNETIC TUNNELING AT THE UNIVERSITY OF BARCELONA 5 1.3 EXPERIMENTS ON MN-12 8 1.4 CONCLUSION 12 REFERENCES 13 2 QUANTUM TUNNELING OF THE COLLECTIVE SPINS OF SINGLE-MOLECULE MAGNETS: FROM EARLY STUDIES TO QUANTUM COHERENCE 17 BERNARD BARBARA 2.1 INTRODUCTION 17 2.2 PREHISTORY AND HISTORY 18 2.2.1 MICRO-SQUID MEASUREMENTS 22 2.2.2 MNI2-AC, THE FIRST SINGLE MOLECULAR MAGNET 22 2.3 QUANTUM TUNNELING IN SINGLE MOLECULE MAGNETS 24 2.3.1 SINGLE MOLECULE MAGNETS: BASIC PROPERTIES 24 2.3.2 FIRST EVIDENCES 26 2.3.3 MAIN EVIDENCES 28 2.4 THEORY AND COMPARISONS WITH EXPERIMENTS 33 2.4.1 RESONANCE CONDITIONS 33 2.4.2 QUANTUM FLUCTUATIONS AND BARRIER ERASING 34 2.4.3 TUNNEL SPLITTINGS, SPIN-PARITY AND OBSERVATION OF MQTM 34 2.4.4 QUANTUM TUNNELING AND SPIN-BATH 36 2.5 QUANTUM TUNNELING AND COHERENCE IN SINGLE ION MAGNETS . 44 2.5.1 FIRST EVIDENCE OF MQTM IN SIMS AND COMPARISON WITH SMMS 44 2.5.2 FIRST EVIDENCE OF MQCM IN SIMS, PAVING THE WAY FOR SMMS 47 IX HTTP://D-NB.INFO/1037896580 X CONTENTS 2.6 QUANTUM COHERENCE IN SINGLE MOLECULE MAGNETS 50 2.7 CONCLUSION AND PERSPECTIVES 54 REFERENCES 55 3 SPIN L\INNELING IN MAGNETIC MOLECULES THAT HAVE FULL OR PARTIAL MECHANICAL FREEDOM 61 EUGENE M. CHUDNOVSKY 3.1 INTRODUCTION 61 3.2 NANOMECHANICS OF A TWO-STATE SPIN SYSTEM ROTATING ABOUT A FIXED AXIS 64 3.2.1 QUANTUM MECHANICS OF A TWO-STATE SPIN SYSTEM 64 3.2.2 RENORMALIZATION OF THE SPIN TUNNEL SPLITTING IN A NANO-OSCILLATOR 65 3.3 FREE QUANTUM ROTATOR WITH A TWO-STATE MACROSPIN 67 3.3.1 ANOMALOUS COMMUTATION RELATIONS 67 3.3.2 ROTATING TWO-STATE SPIN SYSTEM 70 3.3.3 GROUND STATE 72 3.4 CONCLUSIONS 74 REFERENCES 75 4 A MICROSCOPIC AND SPECTROSCOPIC VIEW OF QUANTUM TUNNELING OF MAGNETIZATION 77 JUNJIE LIU, ENRIQUE DEL BARCO, AND STEPHEN HILL 4.1 SPIN HAMILTONIAN 77 4.1.1 GIANT-SPIN APPROXIMATION HAMILTONIAN 78 4.1.2 MULTI-SPIN HAMILTONIAN 82 4.2 QUANTUM TUNNELING OF MAGNETIZATION IN HIGH-SYMMETRY MN3 SINGLE-MOLECULE MAGNETS 83 4.2.1 THE MNI SINGLE-MOLECULE MAGNET 84 4.2.2 QTM SELECTION RULES IN MN.I 85 4.2.3 THE INFLUENCE OF DISORDER ON QTM 88 4.2.4 BERRY PHASE INTERFERENCE IN TRIGONAL SYMMETRY 92 4.3 QUANTUM TUNNELING OF MAGNETIZATION IN THE HIGH-SYMMETRY NI4 SINGLE-MOLECULE MAGNET 93 4.3.1 THE NI4 SINGLE-MOLECULE MAGNET 93 *-- 4.3.2 QUANTUM TUNNELING OF MAGNETIZATION IN THE NI4 SMM . . 96 4.3.3 DISORDER 98 4.4 QUANTUM TUNNELING OF MAGNETIZATION IN LOW-SYMMETRY MN4 SINGLE-MOLECULE MAGNETS 99 4.4.1 THE MN4 SINGLE-MOLECULE MAGNETS 99 4.4.2 EPR AND QTM SPECTROSCOPY IN MN4 SMMS WITH AND WITHOUT SOLVENT 100 4.4.3 BERRY PHASE INTERFERENCE IN MN4 -BET 103 4.5 SUMMARY AND OUTLOOK 106 REFERENCES 108 CONTENTS XI PART II BEYOND SINGLE MOLECULES 5 MAGNETIC AVALANCHES IN MOLECULAR MAGNETS 113 MYRIAM P. SARACHIK 5.1 BACKGROUND 113 5.2 TEMPERATURE-DRIVEN MAGNETIC DEFLAGRATION 116 5.2.1 AVALANCHE IGNITION 117 5.2.2 AVALANCHE SPEED 120 5.3 COLD DEFLAGRATION 123 5.4 SUMMARY AND OUTLOOK FOR THE FUTURE 124 REFERENCES 125 6 THEORY OF DEFLAGRATION AND FRONTS OF T\INNELING IN MOLECULAR MAGNETS 129 D.A. GARANIN 6.1 INTRODUCTION 129 6.2 MAGNETIC DEFLAGRATION 132 6.2.1 IGNITION OF DEFLAGRATION 134 6.2.2 DEFLAGRATION FRONTS 135 6.3 FRONTS OF TUNNELING 139 6.3.1 TUNNELING EFFECTS IN THE RELAXATION RATE 139 6.3.2 DIPOLAR FIELD IN MOLECULAR MAGNETS 143 6.3.3 FRONTS OF TUNNELING AT T = 0 147 6.3.4 ID THEORY OF QUANTUM DEFLAGRATION 151 6.3.5 3D THEORY OF QUANTUM DEFLAGRATION 154 6.4 DISCUSSION 156 REFERENCES 157 7 DIPOLAR MAGNETIC ORDER IN CRYSTALS OF MOLECULAR NANOMAGNETS . . 161 FERNANDO LUIS 7.1 INTRODUCTION 161 7.2 THEORETICAL BACKGROUND 165 7.2.1 SPIN HAMILTONIAN 165 7.2.2 MEAN-FIELD APPROXIMATIONS 166 7.3 DIPOLAR ORDER VS. SINGLE-MOLECULE MAGNET BEHAVIOR 168 7.3.1 MAGNETIC ORDER AND RELAXATION TOWARDS THERMAL EQUILIBRIUM 168 7.3.2 INFLUENCE OF DIPOLAR INTERACTIONS ON MAGNETIC RELAXATION AND SPIN TUNNELING 169 7.3.3 EXPERIMENTAL DETERMINATION OF THE AVERAGE INTERACTION FIELDS 170 7.4 DIPOLAR ORDER OF MOLECULAR NANOMAGNETS WITH LOW MAGNETIC ANISOTROPY. FERROMAGNETISM IN MNFI 172 7.5 DIPOLAR ORDER IN A TRANSVERSE MAGNETIC FIELD. FERROMAGNETISM IN MNI2 ACETATE 175 7.5.1 MAGNETIC ORDERING VIA PURE QUANTUM TUNNELING 175 XII CONTENTS 7.5.2 QUANTUM ANNEALING 175 7.5.3 THE QUANTUM ISING MODEL 176 7.5.4 MAGNETIC ORDER IN MN12 ACETATE 177 7.6 MAGNETIC ORDER AND QUANTUM PHASE TRANSITION IN FES 181 7.7 CONCLUSIONS AND OUTLOOK 186 REFERENCES 187 8 SINGLE-CHAIN MAGNETS 191 DANTE GATTESCHI AND ALESSANDRO VINDIGNI 8.1 INTRODUCTION 191 8.2 THERMAL EQUILIBRIUM AND SLOW DYNAMICS IN IDEAL SCMS . 194 8.3 TAILORING SCMS BY BUILDING-BLOCK APPROACH 198 8.4 REALISTIC SPIN HAMILTONIANS FOR SINGLE-CHAIN MAGNETS 201 8.5 GLAUBER MODEL AND SINGLE-CHAIN MAGNETS 206 8.6 GLAUBER MODEL FOR FINITE CHAINS 211 8.7 BEYOND THE GLAUBER MODEL 215 8.8 CONCLUSION AND PERSPECTIVES 217 REFERENCES 218 9 MAGNETISM OF METAL PHTHALOCYANINES 221 JUAN BARTOLOME, CARLOS MONTON, AND IVAN K. SCHULLER 9.1 INTRODUCTION 221 9.2 SOLID STATE MPCS 222 9.3 MPC THIN FILMS 229 9.4 MPC MOLECULES ADSORBED ON SUBSTRATES 234 9.5 PERSPECTIVES OF MPCS 239 REFERENCES 242 PART III APPLICATIONS 10 POTENTIALITIES OF MOLECULAR NANOMAGNETS FOR INFORMATION TECHNOLOGIES 249 MARCO AFFRONTE AND FILIPPO TROIANI 10.1 INTRODUCTION 249 10.2 CLASSICAL AND QUANTUM BITS 251 10.3 ISSUES, TRENDS AND BENCHMARKS OF INFORMATION TECHNOLOGIES . . 257 10.4 QUANTUM COMPUTATION 262 10.5 CONCLUSIONS AND FUTURE DIRECTIONS 270 REFERENCES 270 11 MOLECULAR MAGNETS FOR QUANTUM INFORMATION PROCESSING 275 KEVIN VAN HOOGDALEM, DIMITRIJE STEPANENKO, AND DANIEL LOSS 11.1 INTRODUCTION 275 11.2 ENCODING OF QUBITS IN MOLECULAR MAGNETS 278 11.3 SINGLE-QUBIT ROTATIONS AND THE SPIN-ELECTRIC EFFECT 280 11.4 TWO-QUBIT GATES 286 11.5 DECOHERENCE IN MOLECULAR MAGNETS 288 11.6 INITIALIZATION AND READ-OUT 291 CONTENTS XIII 11.7 GROVER'S ALGORITHM USING MOLECULAR MAGNETS 292 REFERENCES 294 12 SINGLE-MOLECULE SPINTRONICS 297 ENRIQUE BURZURF AND HERRE S.J. VAN DER ZANT 12.1 INTRODUCTION 297 12.1.1 HOW TO DETECT SPIN IN MAGNETIC MOLECULES? 298 12.2 COULOMB BLOCKADE 299 12.3 SPECTROSCOPY OF MAGNETIC SPIN STATES 301 12.3.1 WEAK COUPLING: SET EXCITATIONS 302 12.3.2 INTERMEDIATE COUPLING: INELASTIC SPIN-FLIP CO-TUNNELING PROCESS 303 12.3.3 KONDO CORRELATIONS 304 12.3.4 GROUND STATE TO GROUND STATE: GATE SPECTROSCOPY . 305 12.3.5 SUMMARY 307 12.4 FABRICATION OF A SPIN TRANSISTOR 307 12.4.1 ELECTRON-BEAM LITHOGRAPHY 307 12.4.2 ELECTROMIGRATION 309 12.4.3 PRELIMINARY CHARACTERIZATION 310 12.5 A PRACTICAL EXAMPLE. THE FE4 SINGLE-MOLECULE MAGNET 310 12.5.1 WHY THE FE4 SINGLE-MOLECULE MAGNET? 310 12.5.2 SPIN EXCITATIONS: INELASTIC SPIN FLIP SPECTROSCOPY . 312 12.5.3 GATE-VOLTAGE SPECTROSCOPY 313 12.5.4 KONDO EXCITATIONS AND HIGH-SPIN STATE 314 12.6 FUTURE DIRECTIONS 315 12.6.1 QUANTUM TUNNELING OF THE MAGNETIZATION AND BERRY PHASE 315 12.6.2 FERROMAGNETIC ELECTRODES 316 12.6.3 SPIN CROSSOVER MOLECULES 316 REFERENCES 317 13 MOLECULAR QUANTUM SPINTRONICS USING SINGLE-MOLECULE MAGNETS . 319 MARC GANZHORN AND WOLFGANG WERNSDORFER 13.1 INTRODUCTION 319 13.2 MOLECULAR NANOMAGNETS FOR MOLECULAR SPINTRONICS 320 13.3 INTRODUCTION TO MOLECULAR SPINTRONICS 321 13.3.1 DIRECT COUPLING SCHEME 322 13.3.2 INDIRECT COUPLING SCHEME 324 13.3.3 MAGNETIC TORQUE DETECTOR OR PROBING VIA MECHANICAL MOTION 325 13.3.4 NANOSQUID OR PROBING VIA MAGNETIC FLUX 327 13.4 MAGNETISM OF THE TBPC2 MOLECULAR NANOMAGNET 328 13.4.1 MOLECULAR STRUCTURE 329 13.4.2 SPIN HAMILTONIAN 329 13.4.3 QUANTUM TUNNELING OF MAGNETIZATION AND LANDAU-ZENER MODEL 332 13.4.4 SPIN-LATTICE RELAXATION 333 XIV CONTENTS 13.5 MOLECULAR QUANTUM SPINTRONICS WITH A SINGLE TBPC2 335 13.5.1 READ-OUT OF THE ELECTRONIC SPIN 336 13.5.2 READ-OUT OF THE NUCLEAR SPIN 344 13.5.3 COUPLING OF A SINGLE TBPC2 SMM TO A CARBON NANOTUBE'S MECHANICAL MOTION 354 13.5.4 COUPLING OF A SINGLE TBPC2 SMM TO A QUANTUM DOT. . . 358 13.6 CONCLUSION 360 REFERENCES 361 14 MOLECULE-BASED MAGNETIC COOLERS: MEASUREMENT, DESIGN AND APPLICATION 365 MARCO EVANGELISTI 14.1 INTRODUCTION 365 14.2 THEORETICAL FRAMEWORK 367 14.3 EXPERIMENTAL EVALUATION OF THE MCE 368 14.3.1 INDIRECT METHODS 368 14.3.2 DIRECT MEASUREMENTS 370 14.4 DESIGNING THE IDEAL REFRIGERANT 373 14.4.1 MAGNETIC ANISOTROPY 374 14.4.2 MAGNETIC INTERACTIONS 375 14.4.3 MAGNETIC DENSITY AND CHOICE OF UNITS 378 14.5 TOWARDS APPLICATIONS: ON-CHIP REFRIGERATION 382 14.6 CONCLUDING REMARKS 385 REFERENCES 385 INDEX 389
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title	Molecular magnets physics and applications
title_auth	Molecular magnets physics and applications
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title_fullStr	Molecular magnets physics and applications Juan Bartolomé ... eds.
title_full_unstemmed	Molecular magnets physics and applications Juan Bartolomé ... eds.
title_short	Molecular magnets
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