Influence of disorder on vortex Majorana states in 3D topological insulators
ORAL
Abstract
Majorana states hosted in vortex cores of topological insulator/superconductor
heterostructures present a promising alternative to nanowire-based approaches.
Vortices can be pinned to anti-dots pre-fabricated in the superconductor; large anti-
dots are relatively simple to fabricate and ensure that weak magnetic fields are
sufficient to induce a required quantum of flux. However, it has thus far been unclear
whether current topological insulator materials are clean enough to sustain Majorana
vortex modes with a sizable gap to excitations. In this talk, I will present our numerical
studies of the vortex subgap spectrum as a function of disorder, chemical potential,
and the anti-dot size. We employ a two-dimensional low-energy description of the
topological insulator surface, which allows us to simulate large system sizes with
vortices up to 1 micron in diameter. We connect our results to existing mobility
measurement data to translate the level of disorder in existing materials to our
simulated disorder model.
heterostructures present a promising alternative to nanowire-based approaches.
Vortices can be pinned to anti-dots pre-fabricated in the superconductor; large anti-
dots are relatively simple to fabricate and ensure that weak magnetic fields are
sufficient to induce a required quantum of flux. However, it has thus far been unclear
whether current topological insulator materials are clean enough to sustain Majorana
vortex modes with a sizable gap to excitations. In this talk, I will present our numerical
studies of the vortex subgap spectrum as a function of disorder, chemical potential,
and the anti-dot size. We employ a two-dimensional low-energy description of the
topological insulator surface, which allows us to simulate large system sizes with
vortices up to 1 micron in diameter. We connect our results to existing mobility
measurement data to translate the level of disorder in existing materials to our
simulated disorder model.
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Presenters
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Jukka Vayrynen
Department of Physics and Astronomy, Purdue University, Purdue University
Authors
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Jukka Vayrynen
Department of Physics and Astronomy, Purdue University, Purdue University
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Rafal Rechcinski
Institute of Physics, Polish Academy of Sciences, Microsoft
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Dmitry I Pikulin
Microsoft Corp
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Roman M Lutchyn
Microsoft Corp