Strain designed Josephson $\pi$ junction qubits with topological insulators
Abstract
A Josephson qubit is designed via the application of a tensile strain to a topological insulator surface sandwiched between two s-wave superconductors. The strain applied leads to a shift in the Dirac point without changing the pre-existing conducting states, on the surface of a topological insulator. Strain applied can be tuned to form a junction in such a structure. Combining two such junctions in a ring architecture leads to the ground state of the ring being in doubly degenerate state- the "0" and "1" states of a qubit. A qubit designed this way is quite easily controlled via the tunable strain applied. We report on the conditions necessary to design such a qubit. Finally the operating time of a single qubit phase gate is derived.
Cite
@article{arxiv.1408.3574,
title = {Strain designed Josephson $\pi$ junction qubits with topological insulators},
author = {Colin Benjamin},
journal= {arXiv preprint arXiv:1408.3574},
year = {2015}
}
Comments
8 pages and 8 figures with supplementary material