Wireless Majorana Fermions: From Magnetic Tunability to Braiding
ORAL
Abstract
We propose a versatile platform to investigate the existence of zero-energy Majorana fermions (MFs) and their non-Abelian statistics through braiding [1]. This implementation combines a two-dimensional electron gas formed in a semiconductor quantum well grown on the surface of an $s$-wave superconductor, with a nearby array of magnetic tunnel junctions (MTJs). The underlying magnetic textures produced by MTJs provide highly-controllable topological phase transitions to confine and transport MFs in two dimensions, overcoming the requirement for a network of wires.\\ &[1&] G. Fatin, A. Matos-Abiague, B. Scharf, and I. \v{Z}uti\'c, arXiv e-prints (2015), arXiv:1510.08182v1.
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Authors
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Geoffrey Fatin
University at Buffalo - SUNY
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Alex Matos-Abiague
State University of New York at Buffalo, University at Buffalo - SUNY, University at Buffalo
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Benedikt Scharf
State Univ of NY - Buffalo, State University of New York at Buffalo, University at Buffalo - SUNY
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Igor Zutic
University at Buffalo, State University of New York at Buffalo, SUNY at Buffalo, Dept. of Physics, University at Buffalo, State University of New York, University at Buffalo - SUNY, SUNY Buffalo