Majorana Fermions in Equilibrium and in Driven Cold-Atom Quantum Wires

Jiang, Liang; Kitagawa, Takuya; Alicea, Jason; Akhmerov, Anton; Pekker, David; Refael, Gil; Cirac, J. I.; Demler, Eugene; Lukin, Mikhail D.; Zoller, P.

doi:10.1103/physrevlett.106.220402

articlePhysical Review LettersJun 2, 2011GREEN OA

Majorana Fermions in Equilibrium and in Driven Cold-Atom Quantum Wires

LJLiang Jiang TKTakuya Kitagawa JAJason Alicea AAAnton Akhmerov DPDavid Pekker

California Institute of Technology · Harvard University · +4 more institutions

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Indexed inarxivcrossrefpubmed

Abstract

We introduce a new approach to create and detect Majorana fermions using optically trapped 1D fermionic atoms. In our proposed setup, two internal states of the atoms couple via an optical Raman transition-simultaneously inducing an effective spin-orbit interaction and magnetic field-while a background molecular BEC cloud generates s-wave pairing for the atoms. The resulting cold-atom quantum wire supports Majorana fermions at phase boundaries between topologically trivial and nontrivial regions, as well as "Floquet Majorana fermions" when the system is periodically driven. We analyze experimental parameters, detection schemes, and various imperfections.

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Topics

Keywords

MAJORANA
Fermion
Physics
Pairing
Ultracold atom
Floquet theory
Quantum
Quantum computer

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