Computational studies on the static and dynamical properties of one dimensional integer spin quantum magnets
One dimensional quantum magnets have always been an active area of research due to their experimental realizability and the rich physics that they offer. By including geometrical frustration and additional interactions, it leads to even more novel and exotic quantum phases. In this thesis, we pre...
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sg-ntu-dr.10356-1430942023-02-28T23:46:29Z Computational studies on the static and dynamical properties of one dimensional integer spin quantum magnets Ong, Ernest Teng Siang Pinaki Sengupta School of Physical and Mathematical Sciences PSENGUPTA@ntu.edu.sg Science::Physics::Atomic physics::Solid state physics One dimensional quantum magnets have always been an active area of research due to their experimental realizability and the rich physics that they offer. By including geometrical frustration and additional interactions, it leads to even more novel and exotic quantum phases. In this thesis, we present the results of our investigations conducted by extending the quantum systems to spin–1. We conducted static, topological and dynamical calculations numerically on the spin–1 Heisenberg chain with Dzyaloshinskii–Moriya interaction in a uniform magnetic field in the form of a spin–1 Heisenberg chain in a helical magnetic field as well as the spin–1 Heisenberg model on the spin diamond and orthogonal dimer lattices. For the spin–1 Heisenberg chain in a helical field, we obtained the phase diagram using the density matrix renormalization group method and showed conclusively that the helical field destroys any topological order. We also obtained the dynamical spin structure factor spectra to study the magnon band structures and the softening of the modes near phase transitions. We then investigated the spin–1 Heisenberg model on the spin diamond and orthogonal dimer lattices using both exact diagonalization and the density matrix renormalization group method. We obtained the phase diagrams for both systems and explicitly calculated the magnetization, static spin structure and topological order of the different phases. Similar to the spin–1 Heisenberg chain in a helical magnetic field, we also obtained the dynamical spin structure factor spectra to study the characteristics of the lowest excitation occurring in both quantum systems. Doctor of Philosophy 2020-08-03T02:02:09Z 2020-08-03T02:02:09Z 2020 Thesis-Doctor of Philosophy Ong, E. T. S. (2020). Computational studies on the static and dynamical properties of one dimensional integer spin quantum magnets. Doctoral thesis, Nanyang Technological University, Singapore. https://hdl.handle.net/10356/143094 10.32657/10356/143094 en This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License (CC BY-NC 4.0). application/pdf Nanyang Technological University |
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Science::Physics::Atomic physics::Solid state physics Ong, Ernest Teng Siang Computational studies on the static and dynamical properties of one dimensional integer spin quantum magnets |
| description |
One dimensional quantum magnets have always been an active area of research due to
their experimental realizability and the rich physics that they offer. By including geometrical
frustration and additional interactions, it leads to even more novel and exotic
quantum phases. In this thesis, we present the results of our investigations conducted by
extending the quantum systems to spin–1. We conducted static, topological and dynamical
calculations numerically on the spin–1 Heisenberg chain with Dzyaloshinskii–Moriya
interaction in a uniform magnetic field in the form of a spin–1 Heisenberg chain in a helical
magnetic field as well as the spin–1 Heisenberg model on the spin diamond and
orthogonal dimer lattices. For the spin–1 Heisenberg chain in a helical field, we obtained
the phase diagram using the density matrix renormalization group method and
showed conclusively that the helical field destroys any topological order. We also obtained
the dynamical spin structure factor spectra to study the magnon band structures
and the softening of the modes near phase transitions. We then investigated the spin–1
Heisenberg model on the spin diamond and orthogonal dimer lattices using both exact
diagonalization and the density matrix renormalization group method. We obtained the
phase diagrams for both systems and explicitly calculated the magnetization, static spin
structure and topological order of the different phases. Similar to the spin–1 Heisenberg
chain in a helical magnetic field, we also obtained the dynamical spin structure factor
spectra to study the characteristics of the lowest excitation occurring in both quantum
systems. |
| author2 |
Pinaki Sengupta |
| author_facet |
Pinaki Sengupta Ong, Ernest Teng Siang |
| format |
Thesis-Doctor of Philosophy |
| author |
Ong, Ernest Teng Siang |
| author_sort |
Ong, Ernest Teng Siang |
| title |
Computational studies on the static and dynamical properties of one dimensional integer spin quantum magnets |
| title_short |
Computational studies on the static and dynamical properties of one dimensional integer spin quantum magnets |
| title_full |
Computational studies on the static and dynamical properties of one dimensional integer spin quantum magnets |
| title_fullStr |
Computational studies on the static and dynamical properties of one dimensional integer spin quantum magnets |
| title_full_unstemmed |
Computational studies on the static and dynamical properties of one dimensional integer spin quantum magnets |
| title_sort |
computational studies on the static and dynamical properties of one dimensional integer spin quantum magnets |
| publisher |
Nanyang Technological University |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/143094 |
| _version_ |
1759855697519968256 |