Parkinson J.B. An introduction to quantum spin systems / J.B.Parkinson, D.J.J.Farnell. - Berlin; Heidelberg; New York: Springer-Verlag, 2010. - xi, 154 p. - (Lecture notes in physics; 816). - Incl. bibl. ref. - Ind.: p.153-154. - ISBN 978-3-642-13289-6  Место хранения:   026 | Институт физики полупроводников СО РАН | Новосибирск | Библиотека

Оглавление / Contents

1 Introduction ................................................. 1 References ................................................... 5 2 Spin Models .................................................. 7 2.1 Spin Angular Momentum ................................... 7 2.2 Coupled Spins .......................................... 10 2.3 Two Interacting Spin-1/2's ............................. 11 2.4 Commutators and Quantum Numbers ........................ 14 2.5 Physical Picture ....................................... 16 2.6 Infinite Arrays of Spins ............................... 16 2.7 ID Heisenberg Chain with S = 1/2 and Nearest-Neighbour Interaction ............................................ 18 References .................................................. 19 3 Quantum Treatment of the Spin-1/2 Chain ..................... 21 3.1 General Remarks ........................................ 21 3.2 Aligned State .......................................... 22 3.3 Single Deviation States ................................ 23 3.4 Two Deviation States ................................... 27 3.4.1 Form of the States .............................. 33 3.5 Three Deviation States ................................. 36 3.5.1 Bethe Ansatz for SZ/T= N/2 - 3 .................. 36 3.6 States with an Arbitrary Number of Deviations .......... 37 Reference ................................................... 38 4 The Antiferromagnetic Ground State .......................... 39 4.1 The Fundamental Integral Equation ...................... 39 4.2 Solution of the Fundamental Integral Equation .......... 43 4.3 The Ground State Energy ................................ 45 References .................................................. 47 5 Antiferromagnetic Spin Waves ................................ 49 5.1 The Basic Formalism .................................... 49 5.2 Magnetic Field Behaviour ............................... 57 References .................................................. 59 6 The XY Model ................................................ 61 6.1 Introduction ........................................... 61 6.2 Change from Spin Operators to Fermion Operators ........ 62 6.3 Fourier Transform ...................................... 68 6.4 Quasiparticle Operators ................................ 69 6.5 Quasiparticle Energies ................................. 71 6.6 Ground State Energy of the XY-Model .................... 73 References .................................................. 75 7 Spin-Wave Theory ............................................ 77 7.1 Introduction ........................................... 77 7.2 Ferromagnetic Spin-Wave Theory ......................... 80 7.3 Antiferromagnetic Spin-Wave Theory ..................... 82 References .................................................. 88 8 Numerical Finite-Size Calculations .......................... 89 8.1 Introduction ........................................... 89 8.2 A Simple Example ....................................... 90 8.3 Results in 1D .......................................... 92 8.4 Results in 2D .......................................... 95 References .................................................. 96 9 Other Approximate Methods ................................... 99 9.1 Introduction ........................................... 99 9.2 Variational Method ..................................... 99 9.3 Variational Monte Carlo Method ........................ 101 9.4 The Green Function Monte Carlo Method ................. 104 9.5 Perturbation Theory ................................... 105 References ................................................. 108 10 The Coupled Cluster Method ................................. 109 10.1 Introduction .......................................... 109 10.2 The CCM Formalism ..................................... 110 10.3 The XXZ-Model ......................................... 115 10.3.1 The LSUB2 Approximation for the Spin-Half, Square-Lattice XXZ-Model for the z-Aligned Model State .................................... 117 10.3.2 The SUB2 Approximation for the Spin-Half, Square-Lattice XXZ-Model of the z-Aligned Model State .................................... 122 10.3.3 High-Order CCM Calculations Using a Computational Approach ......................... 125 10.3.4 Excitation Spectrum of the Spin-Half Square- Lattice XXZ-Model for the z-Aligned Model State .......................................... 127 10.4 The Lattice Magnetisation ............................. 129 References ................................................. 134 11 Quantum Magnetism .......................................... 135 11.1 Introduction .......................................... 135 11.2 One-Dimensional Models ................................ 136 11.2.1 The Spin-Half J1-J2 Model on the Linear Chain .......................................... 136 11.2.2 The s = 1 Heisenberg Model on the Linear Chain .......................................... 138 11.2.3 The s = 1 Heisenberg-Biquadratic Model on the Linear Chain ................................... 139 11.3 The s = 1/2 Heisenberg Model for Archimedean Lattices .............................................. 140 11.4 Spin Plateaux ......................................... 145 11.5 The Spin-Half J1-J2 Model on the Square Lattice ....... 146 11.6 The Shastry-Sutherland Antiferromagnet ................ 147 11.7 Conclusions .......................................... 149 References ................................................. 150 Index ......................................................... 153