Topological Orders with Spins and Fermions - Laura Ortiz Martín

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Topological Orders with Spins and Fermions (eBook)

Quantum Phases and Computation

Laura Ortiz Martín (Autor)

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2019 | 1st ed. 2019
XVII, 168 Seiten
Springer International Publishing (Verlag)
978-3-030-23649-6 (ISBN)

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This thesis deals with topological orders from two different perspectives: from a condensed matter point of view, where topological orders are considered as breakthrough phases of matter; and from the emerging realm of quantum computation, where topological quantum codes are considered the most appealing platform against decoherence.

The thesis reports remarkable studies from both sides. It thoroughly investigates a topological order called the double semion model, a counterpart of the Kitaev model but exhibiting richer quasiparticles as excitations. A new model for symmetry enriched topological order is constructed, which adds an onsite global symmetry to the double semion model. Using this topological phase, a new example of topological code is developed, the semion code, which is non-CSS, additive, non-Pauli and within the stabiliser formalism.

Furthermore, the thesis analyses the Rashba spin-orbit coupling within topological insulators, turning the helical edge states into generic edges modes with potential application in spinstronics. New types of topological superconductors are proposed and the novel properties of the correspondingly created Majorana fermions are investigated. These Majorana fermions have inherent properties enabling braiding and the performance of logical gates as fundamental blocks for a universsal quantum computator.

Until now, Laura Ortiz Martin's career has been a purely scentific, although she has addressed topics which could be very useful for entrepreneurial environment nowadays, focusing in Quantum Technologies. She obtained her first degree and M.Sc in Madrid, at the Universidad Complutense, then continued her research at CSIC, the National Research Institute, before returning to the Universidad Complutense to for her Ph.D. During her doctoral studies , she attended many international conferences and visited numerous research groups around the world. Currently, she is a Postdoctoral Fellow at the Hebrew University of Jerusalem.

Supervisor’s Foreword 6
Abstract 9
Outline of the Thesis 12
Contents 14
Introduction 17
1 Topology in Condensed Matter 18
1.1 SET Phases: Symmetry Fractionalisation 20
1.2 SPT Phases: Edge States 21
References 22
2 Topology in Quantum Information 26
2.1 Topological Quantum Computation with Ground State 27
2.2 Topological Quantum Computation with Excitations 28
References 29
Spin Systems 31
3 The Bilayer Double Semion Model 32
3.1 Introduction 32
3.2 Summary of Main Results 34
3.3 The Double Semion Model 34
3.4 The String-Flux Mechanism 38
3.5 The Bilayer DS Model 42
3.5.1 Invariance Under Global Symmetry 48
3.6 New Paramagnetic Phase 50
3.6.1 The Ground State 54
3.6.2 Edge States 57
3.7 Outlook 59
References 61
4 Double Semion Model as a Quantum Memory 62
4.1 Introduction 62
4.2 Summary of Main Results 63
4.3 Off-Shell Double Semion: Microscopic Model 64
4.3.1 Double Semion Model on the Vertex-Free Subspace 64
4.3.2 Exactly Solvable Model in the Whole Hilbert Space 66
4.4 Constructing Open-String Operators 68
4.4.1 Algorithm to Generate Strings 69
4.4.2 Example of an Open-String Operator 73
4.4.3 Completeness of String Operators 74
4.5 Constructing Closed Strings: Logical Operators 76
4.6 Error Correction with the Semion Code 79
4.7 Outlook 80
References 80
Fermionic Systems 82
5 Topological Insulators 83
5.1 Introduction 83
5.2 Summary of Main Results 85
5.3 Generic Helical Edge States 86
5.3.1 Phenomenology of the Generic Helical Edge States 86
5.3.2 Realistic GHES: The BHZ Model with Rashba SOC 88
5.4 Outlook 102
References 102
6 Topological Superconductors 105
6.1 Introduction 105
6.2 Summary of Main Results 108
6.3 Microscopic Characterisation 109
6.3.1 Disorder Analysis 113
6.3.2 Topological Phase Diagrams 115
6.4 Topological Edge States 117
6.4.1 Edge States from d-wave Superconductor 118
6.4.2 Edge States from Nodeless Pairing 123
6.5 Outlook 126
References 127
Conclusions 131
7 Summary of Results 132
8 Outlook 135
References 137
A Technical Details on the Bilayer DS Model 138
A.1 Remarks on the DS Model 138
A.2 Proofs of Commutativity of the Bilayer Double Semion 142
B Technical Details on the Semion Code 146
B.1 Commutation of the Plaquette Operators on the Vertex-Free Subspace 146
B.2 Properties of the Generalised Plaquette Operators 147
B.2.1 Hermiticity and Unitarity of the Plaquette Operators 147
B.2.2 Commutation of the Plaquette Operators 148
B.2.3 The Product of All Plaquette Operators Gives the Identity 152
B.3 Proofs Regarding Algorithm 1 155
B.3.1 Useful Technical Lemmas 156
B.3.2 Proof of Theorem 1 161
B.4 Properties of Open Crossing Strings 161
C Technical Details on How to Calculate GHESs 165
D Technical Details on Derivation of Majorana States 175
References 176

Erscheint lt. Verlag	11.7.2019
Reihe/Serie	Springer Theses
Reihe/Serie	Springer Theses
Zusatzinfo	XVII, 168 p. 65 illus., 56 illus. in color.
Sprache	englisch
Themenwelt	Naturwissenschaften ► Physik / Astronomie ► Atom- / Kern- / Molekularphysik
Themenwelt	Technik ► Elektrotechnik / Energietechnik
Schlagworte	Double Semion Model • Majorana Fermions Stability • Non-CSS Topological Code • Rashba Spin-Orbit Coupling • Symmetry-Enriched Topological Orders • Topological Insulators • topological quantum computation • Topological superconductors
ISBN-10	3-030-23649-8 / 3030236498
ISBN-13	978-3-030-23649-6 / 9783030236496

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