Verfügbarkeit: Semiconductor spintronics

Semiconductor spintronics:

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Bibliographische Detailangaben
1. Verfasser:	Schäpers, Thomas 1962- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin ; Boston De Gruyter [2021]
Ausgabe:	2nd edition
Schriftenreihe:	De Gruyter graduate
Schlagworte:	Halbleiter Spintronik Elektron Festkörperphysik Magnetismus Magnetoelektronik Quantenspinsystem Spin flip Spin-Hall-Effekt Spin-transfer torque Spinaustausch Spindynamik TB: Textbook
Online-Zugang:	https://www.degruyter.com/books/9783110638875 Inhaltsverzeichnis
Beschreibung:	XVI, 411 Seiten Illustrationen, Diagramme 24 cm x 17 cm
ISBN:	3110638878 9783110638875

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Datensatz im Suchindex

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adam_text	Thomas Schäpers Semiconductor Spintronics 2nd edition DE GRUYTER Contents Preface to the second edition —— Vil Preface to the first edition —— IX Introduction — 1 Low-dimensional semiconductor structures — 6 Overview — 6 Bulk semiconductors — 7 Band structure — 7 Effective mass — 9 Density of states — 11 Intrinsic semiconductors — 13 Doped semiconductors — 15 Transport — 17 Classical diffusive transport — 17 Einstein relation — 18 Mobility — 19 Characteristic length scales — 20 Layer systems —— 23 Semiconductor heterostructures — 23 Two-dimensional electron gases — 25 Quantum wires and nanowires — 27 Electron beam lithography — 27 Semiconductor nanowires — 29 Split-gate quantum point contacts —— 30 Zero-dimensional structures: quantum dots —— 34 Transport at small source-drain bias voltages —— 35 Transport as a function of source-drain bias voltage — 38 Transport in a quantizing magnetic field — 39 Landau quantization — 40 Shubnikov-de Haas oscillations — 43 Magnetic edge states —— 45 Summary — 50 Magnetism in solids — 52 Definitions and basics — 52 Definitions — 52 Magnetization —— 52 Magnetic moments of electrons in atomic orbitals — 53 Al ——— Contents The electron spin — 54 Classification —— 57 Paramagnetism — 57 Paramagnetism of localized moments — 57 Hund’s rule — 61 Pauli paramagnetism — 62 Collective magnetism — 63 Exchange interaction — 63 Stoner model — 67 Summary — 71 Diluted magnetic semiconductors — 73 Overview —— 73 ll-Vi diluted magnetic semiconductors — 74 HI-V diluted magnetic semiconductors — 78 Transport properties of Ill-V diluted magnetic semiconductors —— 87 Summary — 92 Magnetic electrodes — 94 Overview — 94 Formation of magnetic domains — 95 Magnetic stray field — 95 Crystal anisotropy — 96 Form anisotropy contribution — 97 Exchange energy contribution ——- 98 Domain walls — 98 Ferromagnetic electrodes — 101 Local Hall effect measurements —— 105 Micromagnetic simulations — 107 Domain wall motion —— 110 Summary ~~ 113 Spin injection — 114 Overview — 114 Resistor model — 115 Local description of spin injection —~ 119 Optical detection of spin-polarized carriers —~ 126 Experiments on optical detection of spin polarization —— 130 Injection through a barrier — 133 Free electron approximation —— 134 Diffusive transport regime -——— 139 Experiments on spin injectors with interface barriers — 142 6 8 Contents — Xill Nonlocal spin injection — 144 Optical spin generation — 148 Optical absorption — 148 Spin coherence and spin dephasing — 149 Optical detection of magnetization — 151 Pump-probe experiments —— 153 Resonant spin amplification —— 158 Summary — 161 Spin transistor — 162 Overview — 162 InAs-based two-dimensional electron gases —~ 162 The Rashba effect —— 164 Strength of the Rashba spin-orbit coupling — 169 The k:p method — 169 Envelope function approach —— 171 Magnetoresistance measurements —— 175 Beating patterns due to the Rashba effect — 176 Gate-control of the Rashba effect — 178 Bulk inversion asymmetry —— 181 Time-reversal symmetry —— 181 Spatial inversion symmetry —- 182 Dresselhaus term —— 184 Rashba effect in quasi one-dimensional structures —- 187 Rashba effect in planar quasi one-dimensional structures —— 187 Helical energy gap —— 191 Rashba effect in tubular structures —— 194 Summary —— 199 Spin interference — 202 Overview —— 202 Electron interference effects — 202 Electron interference effects — 203 Aharonov-Bohm effect — 204 Altshuler-Aronov-Spivak oscillations — 208 Weak localization — 211 Spin interference effects — 216 Weak antilocalization — 216 Spin relaxation mechanisms — 219 Weak antilocalization in two-dimensional electron gases — 222 Weak antilocalization in wire structures — 225 Spin interference effects in ring structures —— 231 XV — Contents Berry phase — 231 36 Spin-interference in a ring with Rashba spin-orbit coupling — 2 Summary — 241 Spin Hall effect — 244 Introductory remarks — 244 Basic phenomena — 245 Boltzmann equation and skew scattering — 246 Boltzmann equation — 246 Intrinsic spin Hall effect — 249 Extrinsic spin Hall effect: skew scattering contribution —— 250 Skew scattering in a two-dimensional system — 252 Experiments on spin Hall effect in semiconductor layers —— 254 Detection of the spin Hall effect by electroluminescence — 257 Summary — 260 Quantum spin Hall effect —- 262 Introductory remarks — 262 Inverted quantum well in HgTe/CdTe —- 263 Band structure — 267 Helical edge states — 269 Conductance in a normal and inverted HgTe/CdTe quantum well — 273 Edge channel transport —— 275 Spin-polarized transport — 277 Summary — 279 Topological insulators —— 282 introductory remarks ——- 282 Material system — 283 Bulk band structure —— 283 Level evolution —— 285 Effective Hamiltonian — 286 Ab-initio band structure calculations — 287 Surface states — 289 Surface states deduced from the effective Hamiltonian — 289 Surface states obtained from ab initio calculations — 290 Topological protection of surface states — 291 Angle-resolved photo-emission spectroscopy — 292 Transport experiments — 295 Topologically protected surface states in nanowires — 296 Flux-periodic oscillations in nanowire structures — 300 Contents — XV 11 6 3 Landau quantization in two-dimensional topological surface states —— 302 11 6 4 Shubnikov—-de Haas oscillations in Dirac systems —— 304 11 7 Summary —— 306 12 Quantum computation with electron spins —— 309 12 1 Introductory remarks —— 309 12 2 Basic elements of a quantum computer —— 309 12 2 1 Quantum bit —— 309 12 2 2 Entangled states — 311 12 3 Basic quantum gates — 312 12 3 1 Single-qubit gate —— 312 12 3 2 Controlled-NOT gate —— 314 12 3 3 Realization of a quantum computer — 315 12 4 Quantum algorithms — 316 12 4 1 Deutsch-Josza quantum algorithm —— 316 12 5 Quantum dot spin qubits — 320 12 5 1 General concept — 320 12 5 2 Experimental realization of a quantum dot qubit — 321 12 5 3 Initialization — 323 12 5 4 Read-out — 324 12 5 5 Electron spin resonance — 326 12 5 6 Spin-control in a double dot system — 329 12 5 7 Singlet-triplet qubit — 335 12 5 8 Control of the S-T, qubit — 337 12 6 Summary — 340 13 Majorana fermions — 341 13 1 Overview — 341 13 2 Majorana’s version of the Dirac equation — 341 13 3 Majorana modes in solid-state systems — 343 13 3 1 Many-particle states — 344 13 3 2 Bogoliubov-de Gennes equation — 346 13 4 The Kitaev chain — 349 13 5 Majorana zero modes in semiconductor nanowires — 351 13 5 1 p-wave pairing in a proximitized semiconductor nanowire — 351 13 5 2 Majorana zero modes — 354 13 5 3 Experimental realization in nanowires — 356 13 6 Topological quantum computing —— 358 13 6 1 Fermion parity and degenerate ground state — 358 13 6 2 Braiding — 359 13 6 3 Braiding with two pairs of Majoranas —— 362 XVI — Contents 13 6 4 Non-Abelian anyons — 363 13 6 5 Majorana qubits — 365 13 7 Summary — 366 Solutions —- 369 Bibliography — 395 Index — 407
adam_txt	Thomas Schäpers Semiconductor Spintronics 2nd edition DE GRUYTER Contents Preface to the second edition —— Vil Preface to the first edition —— IX Introduction — 1 Low-dimensional semiconductor structures — 6 Overview — 6 Bulk semiconductors — 7 Band structure — 7 Effective mass — 9 Density of states — 11 Intrinsic semiconductors — 13 Doped semiconductors — 15 Transport — 17 Classical diffusive transport — 17 Einstein relation — 18 Mobility — 19 Characteristic length scales — 20 Layer systems —— 23 Semiconductor heterostructures — 23 Two-dimensional electron gases — 25 Quantum wires and nanowires — 27 Electron beam lithography — 27 Semiconductor nanowires — 29 Split-gate quantum point contacts —— 30 Zero-dimensional structures: quantum dots —— 34 Transport at small source-drain bias voltages —— 35 Transport as a function of source-drain bias voltage — 38 Transport in a quantizing magnetic field — 39 Landau quantization — 40 Shubnikov-de Haas oscillations — 43 Magnetic edge states —— 45 Summary — 50 Magnetism in solids — 52 Definitions and basics — 52 Definitions — 52 Magnetization —— 52 Magnetic moments of electrons in atomic orbitals — 53 Al ——— Contents The electron spin — 54 Classification —— 57 Paramagnetism — 57 Paramagnetism of localized moments — 57 Hund’s rule — 61 Pauli paramagnetism — 62 Collective magnetism — 63 Exchange interaction — 63 Stoner model — 67 Summary — 71 Diluted magnetic semiconductors — 73 Overview —— 73 ll-Vi diluted magnetic semiconductors — 74 HI-V diluted magnetic semiconductors — 78 Transport properties of Ill-V diluted magnetic semiconductors —— 87 Summary — 92 Magnetic electrodes — 94 Overview — 94 Formation of magnetic domains — 95 Magnetic stray field — 95 Crystal anisotropy — 96 Form anisotropy contribution — 97 Exchange energy contribution ——- 98 Domain walls — 98 Ferromagnetic electrodes — 101 Local Hall effect measurements —— 105 Micromagnetic simulations — 107 Domain wall motion —— 110 Summary ~~ 113 Spin injection — 114 Overview — 114 Resistor model — 115 Local description of spin injection —~ 119 Optical detection of spin-polarized carriers —~ 126 Experiments on optical detection of spin polarization —— 130 Injection through a barrier — 133 Free electron approximation —— 134 Diffusive transport regime -——— 139 Experiments on spin injectors with interface barriers — 142 6 8 Contents — Xill Nonlocal spin injection — 144 Optical spin generation — 148 Optical absorption — 148 Spin coherence and spin dephasing — 149 Optical detection of magnetization — 151 Pump-probe experiments —— 153 Resonant spin amplification —— 158 Summary — 161 Spin transistor — 162 Overview — 162 InAs-based two-dimensional electron gases —~ 162 The Rashba effect —— 164 Strength of the Rashba spin-orbit coupling — 169 The k:p method — 169 Envelope function approach —— 171 Magnetoresistance measurements —— 175 Beating patterns due to the Rashba effect — 176 Gate-control of the Rashba effect — 178 Bulk inversion asymmetry —— 181 Time-reversal symmetry —— 181 Spatial inversion symmetry —- 182 Dresselhaus term —— 184 Rashba effect in quasi one-dimensional structures —- 187 Rashba effect in planar quasi one-dimensional structures —— 187 Helical energy gap —— 191 Rashba effect in tubular structures —— 194 Summary —— 199 Spin interference — 202 Overview —— 202 Electron interference effects — 202 Electron interference effects — 203 Aharonov-Bohm effect — 204 Altshuler-Aronov-Spivak oscillations — 208 Weak localization — 211 Spin interference effects — 216 Weak antilocalization — 216 Spin relaxation mechanisms — 219 Weak antilocalization in two-dimensional electron gases — 222 Weak antilocalization in wire structures — 225 Spin interference effects in ring structures —— 231 XV — Contents Berry phase — 231 36 Spin-interference in a ring with Rashba spin-orbit coupling — 2 Summary — 241 Spin Hall effect — 244 Introductory remarks — 244 Basic phenomena — 245 Boltzmann equation and skew scattering — 246 Boltzmann equation — 246 Intrinsic spin Hall effect — 249 Extrinsic spin Hall effect: skew scattering contribution —— 250 Skew scattering in a two-dimensional system — 252 Experiments on spin Hall effect in semiconductor layers —— 254 Detection of the spin Hall effect by electroluminescence — 257 Summary — 260 Quantum spin Hall effect —- 262 Introductory remarks — 262 Inverted quantum well in HgTe/CdTe —- 263 Band structure — 267 Helical edge states — 269 Conductance in a normal and inverted HgTe/CdTe quantum well — 273 Edge channel transport —— 275 Spin-polarized transport — 277 Summary — 279 Topological insulators —— 282 introductory remarks ——- 282 Material system — 283 Bulk band structure —— 283 Level evolution —— 285 Effective Hamiltonian — 286 Ab-initio band structure calculations — 287 Surface states — 289 Surface states deduced from the effective Hamiltonian — 289 Surface states obtained from ab initio calculations — 290 Topological protection of surface states — 291 Angle-resolved photo-emission spectroscopy — 292 Transport experiments — 295 Topologically protected surface states in nanowires — 296 Flux-periodic oscillations in nanowire structures — 300 Contents — XV 11 6 3 Landau quantization in two-dimensional topological surface states —— 302 11 6 4 Shubnikov—-de Haas oscillations in Dirac systems —— 304 11 7 Summary —— 306 12 Quantum computation with electron spins —— 309 12 1 Introductory remarks —— 309 12 2 Basic elements of a quantum computer —— 309 12 2 1 Quantum bit —— 309 12 2 2 Entangled states — 311 12 3 Basic quantum gates — 312 12 3 1 Single-qubit gate —— 312 12 3 2 Controlled-NOT gate —— 314 12 3 3 Realization of a quantum computer — 315 12 4 Quantum algorithms — 316 12 4 1 Deutsch-Josza quantum algorithm —— 316 12 5 Quantum dot spin qubits — 320 12 5 1 General concept — 320 12 5 2 Experimental realization of a quantum dot qubit — 321 12 5 3 Initialization — 323 12 5 4 Read-out — 324 12 5 5 Electron spin resonance — 326 12 5 6 Spin-control in a double dot system — 329 12 5 7 Singlet-triplet qubit — 335 12 5 8 Control of the S-T, qubit — 337 12 6 Summary — 340 13 Majorana fermions — 341 13 1 Overview — 341 13 2 Majorana’s version of the Dirac equation — 341 13 3 Majorana modes in solid-state systems — 343 13 3 1 Many-particle states — 344 13 3 2 Bogoliubov-de Gennes equation — 346 13 4 The Kitaev chain — 349 13 5 Majorana zero modes in semiconductor nanowires — 351 13 5 1 p-wave pairing in a proximitized semiconductor nanowire — 351 13 5 2 Majorana zero modes — 354 13 5 3 Experimental realization in nanowires — 356 13 6 Topological quantum computing —— 358 13 6 1 Fermion parity and degenerate ground state — 358 13 6 2 Braiding — 359 13 6 3 Braiding with two pairs of Majoranas —— 362 XVI — Contents 13 6 4 Non-Abelian anyons — 363 13 6 5 Majorana qubits — 365 13 7 Summary — 366 Solutions —- 369 Bibliography — 395 Index — 407
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physical	XVI, 411 Seiten Illustrationen, Diagramme 24 cm x 17 cm
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spelling	Schäpers, Thomas 1962- Verfasser (DE-588)172553210 aut Semiconductor spintronics Thomas Schäpers 2nd edition Berlin ; Boston De Gruyter [2021] XVI, 411 Seiten Illustrationen, Diagramme 24 cm x 17 cm txt rdacontent n rdamedia nc rdacarrier De Gruyter graduate Halbleiter (DE-588)4022993-2 gnd rswk-swf Spintronik (DE-588)7755384-6 gnd rswk-swf Elektron Festkörperphysik Halbleiter Magnetismus Magnetoelektronik Quantenspinsystem Spin flip Spin-Hall-Effekt Spin-transfer torque Spinaustausch Spindynamik Spintronik TB: Textbook Halbleiter (DE-588)4022993-2 s Spintronik (DE-588)7755384-6 s DE-604 Walter de Gruyter GmbH & Co. KG (DE-588)10095502-2 pbl Erscheint auch als Online-Ausgabe, PDF 978-3-11-063900-1 Erscheint auch als Online-Ausgabe, EPUB 978-3-11-063932-2 X:MVB https://www.degruyter.com/books/9783110638875 HEBIS Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032703829&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p vlb 20201002 DE-101 https://d-nb.info/provenance/plan#vlb
spellingShingle	Schäpers, Thomas 1962- Semiconductor spintronics Halbleiter (DE-588)4022993-2 gnd Spintronik (DE-588)7755384-6 gnd
subject_GND	(DE-588)4022993-2 (DE-588)7755384-6
title	Semiconductor spintronics
title_auth	Semiconductor spintronics
title_exact_search	Semiconductor spintronics
title_exact_search_txtP	Semiconductor spintronics
title_full	Semiconductor spintronics Thomas Schäpers
title_fullStr	Semiconductor spintronics Thomas Schäpers
title_full_unstemmed	Semiconductor spintronics Thomas Schäpers
title_short	Semiconductor spintronics
title_sort	semiconductor spintronics
topic	Halbleiter (DE-588)4022993-2 gnd Spintronik (DE-588)7755384-6 gnd
topic_facet	Halbleiter Spintronik
url	https://www.degruyter.com/books/9783110638875 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032703829&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT schapersthomas semiconductorspintronics AT walterdegruytergmbhcokg semiconductorspintronics

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