Add to ORKGIn part I, we describe a protected qubit which is realized in a two-dimensional array of Josephson junctions. Our construction is the magnetic analogue of (‘dual’ to) a suggestion of a superconducting current mirror qubit (Kitaev,2006b). Our proposal therefore inherits the intrinsic fault-tolerance of the current mirror qubit, but may perform better than it in the laboratory, since magnetic noise is generally less of a problem than electric noise. We adapt the scheme for universal fault-tolerant quantum computation proposed by Kitaev to our construction. In part II, we describe a method of detecting the Chern number and entanglement properties of topological four-component free-fermion systems in cold atom experiments. We show that the ...
In this dissertation, we use numerical methods to study one dimensional symmetry protected topologic...
A peculiar feature of the majority of three-dimensional topological insulator surface states studied...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Physics, 2018.Cataloged from PD...
In part I, we describe a protected qubit which is realized in a two-dimensional array of Josephson j...
Topological invariants, such as the Chern number, characterize topological phases of matter. Here we...
Topological invariants, such as the Chern number, characterize topological phases of matter. Here we...
This thesis contains work in three areas. The works are presented chronologically starting with my w...
This dissertation presents studies of topological superconductivity in Chern insulator systems. In p...
This dissertation presents studies of topological superconductivity in Chern insulator systems. In p...
A central theme in condensed matter physics is the classification and characterization of states of ...
A central theme in condensed matter physics is the classification and characterization of states of ...
This thesis follows two threads in the field of topological insulators and superconductors. The firs...
In this dissertation, we use numerical methods to study one dimensional symmetry protected topologic...
Topological quantum computing seeks to store and manipulate information in a protected manner using ...
Topological phenomena in physical systems are determined by topological structures and are thus univ...
In this dissertation, we use numerical methods to study one dimensional symmetry protected topologic...
A peculiar feature of the majority of three-dimensional topological insulator surface states studied...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Physics, 2018.Cataloged from PD...
In part I, we describe a protected qubit which is realized in a two-dimensional array of Josephson j...
Topological invariants, such as the Chern number, characterize topological phases of matter. Here we...
Topological invariants, such as the Chern number, characterize topological phases of matter. Here we...
This thesis contains work in three areas. The works are presented chronologically starting with my w...
This dissertation presents studies of topological superconductivity in Chern insulator systems. In p...
This dissertation presents studies of topological superconductivity in Chern insulator systems. In p...
A central theme in condensed matter physics is the classification and characterization of states of ...
A central theme in condensed matter physics is the classification and characterization of states of ...
This thesis follows two threads in the field of topological insulators and superconductors. The firs...
In this dissertation, we use numerical methods to study one dimensional symmetry protected topologic...
Topological quantum computing seeks to store and manipulate information in a protected manner using ...
Topological phenomena in physical systems are determined by topological structures and are thus univ...
In this dissertation, we use numerical methods to study one dimensional symmetry protected topologic...
A peculiar feature of the majority of three-dimensional topological insulator surface states studied...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Physics, 2018.Cataloged from PD...