Magnus effect on a Majorana zero mode

G. Lemut; M. J. Pacholski; S. Plugge; C.W.J. Beenakker; Inanc Adagideli

doi:10.1103/PhysRevB.107.205420

Magnus effect on a Majorana zero mode

G. Lemut
, M. J. Pacholski
, S. Plugge
, C.W.J. Beenakker
, Adagideli

Research output: Contribution to journal › Article › Academic › peer-review

1 Citation (Scopus)

85 Downloads (Pure)

Abstract

A supercurrent on the proximitized surface of a topological insulator can cause a delocalization transition of a Majorana fermion bound to a vortex core as a zero mode. Here we study the dynamics of the deconfinement, as a manifestation of the Magnus effect (the coupling of the superflow to the velocity field in the vortex). The initial acceleration of the Majorana fermion is ±2v_F²K/?, perpendicular to the Cooper pair momentum K, for a ±2π winding of the superconducting phase around the vortex. The quasiparticle escapes with a constant velocity from the vortex core, which we calculate in a semiclassical approximation and compare with computer simulations.

Original language	English
Article number	205420
Journal	Physical Review B
Volume	107
Issue number	20
DOIs	https://doi.org/10.1103/PhysRevB.107.205420
Publication status	Published - 30 May 2023

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10.1103/PhysRevB.107.205420

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abstract = "A supercurrent on the proximitized surface of a topological insulator can cause a delocalization transition of a Majorana fermion bound to a vortex core as a zero mode. Here we study the dynamics of the deconfinement, as a manifestation of the Magnus effect (the coupling of the superflow to the velocity field in the vortex). The initial acceleration of the Majorana fermion is ±2vF2K/?, perpendicular to the Cooper pair momentum K, for a ±2π winding of the superconducting phase around the vortex. The quasiparticle escapes with a constant velocity from the vortex core, which we calculate in a semiclassical approximation and compare with computer simulations.",

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AU - Plugge, S.

AU - Beenakker, C.W.J.

AU - Adagideli, null

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N2 - A supercurrent on the proximitized surface of a topological insulator can cause a delocalization transition of a Majorana fermion bound to a vortex core as a zero mode. Here we study the dynamics of the deconfinement, as a manifestation of the Magnus effect (the coupling of the superflow to the velocity field in the vortex). The initial acceleration of the Majorana fermion is ±2vF2K/?, perpendicular to the Cooper pair momentum K, for a ±2π winding of the superconducting phase around the vortex. The quasiparticle escapes with a constant velocity from the vortex core, which we calculate in a semiclassical approximation and compare with computer simulations.

AB - A supercurrent on the proximitized surface of a topological insulator can cause a delocalization transition of a Majorana fermion bound to a vortex core as a zero mode. Here we study the dynamics of the deconfinement, as a manifestation of the Magnus effect (the coupling of the superflow to the velocity field in the vortex). The initial acceleration of the Majorana fermion is ±2vF2K/?, perpendicular to the Cooper pair momentum K, for a ±2π winding of the superconducting phase around the vortex. The quasiparticle escapes with a constant velocity from the vortex core, which we calculate in a semiclassical approximation and compare with computer simulations.

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Magnus effect on a Majorana zero mode

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