期刊
PHYSICAL REVIEW B
卷 105, 期 8, 页码 -出版社
AMER PHYSICAL SOC
DOI: 10.1103/PhysRevB.105.085417
关键词
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资金
- China Scholarship Council [201906230305]
- European Commission under the EU Horizon 2020 MSCA-RISE-2019 programme [873028 HYDROTRONICS]
- Leverhulme Trust [RPG-2019-363]
- STFC [ST/P004423/1]
This article investigates the manipulation of Majorana zero modes in a thin film using a superconductor. The study analyzes nonadiabatic effects and proposes a method to increase the robustness of topological quantum computation by controlling the rotation frequency.
We study the manipulation of Majorana zero modes in a thin disk made from a p-wave superconductor, in order to understand their use as a building block for topological quantum computers. We analyze the second-order topological corner modes that arise when an in-plane magnetic field is applied, and we calculate their dynamical evolution when rotating the magnetic field, with special emphasis on nonadiabatic effects. We characterize the phase transition between high-frequency and near-adiabatic evolution using Floquet analysis. We show that oscillations persist even in the adiabatic phase because of a frequency-independent coupling between zero modes and excited states, which we have quantified numerically and analytically. These results show that controlling the rotation frequency can be a simple method to avoid the nonadiabatic errors originated from this coupling and thus increase the robustness of topological quantum computation.
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