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Probing and Manipulating Majorana Fermions in SO Coupled Atomic Fermi Gases Xia-Ji Liu CAOUS, Swinburne University Hawthorn, July.

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Presentation on theme: "Probing and Manipulating Majorana Fermions in SO Coupled Atomic Fermi Gases Xia-Ji Liu CAOUS, Swinburne University Hawthorn, July."— Presentation transcript:

1 Probing and Manipulating Majorana Fermions in SO Coupled Atomic Fermi Gases Xia-Ji Liu CAOUS, Swinburne University Hawthorn, July.

2 Outline 1 2 3 Majorana Fermion Probing Majorana Fermion in SO Coupled Fermi Gases Manipulating Majorana Fermion in SO Coupled Fermi Gases

3 Majorana Fermion Majorana Fermion: particle is its own antiparticle Fermion: Quantum statistics of Majorana Fermion: anyon

4 Majorana Fermion Quasiparticles in fractional Quantum Hall effect at n=5/2 Moore Read 1991 Potential System Hosts for Majorana Fermion Bound States Unconventional superconductors -Sr2RuO4 Das Sarma, Nayak, Tewari 2006 Proximity Effect Devices using ordinary s wave superconductors -Topological Insulator devices Fu, Kene 2008 -Semiconductor/Magnet devices Sau, Lutchyn, Tewari, /das Sarma 2009 Neutrinos Majorana 1937 Supersymmetry: photino; neutral gauginos; Higgsinos Condensed Matter System: quasiparticles Current Status: Not Observed??

5 Majorana Fermion Ultracold Fermionic Atoms near Feshbach Resonance Das Sarma T. Mizushima, K. Machida, M. Sato, Y. Takahashi, S. Fujimoto, C. Zhang,, et al.. Full Microscopic Calculation ? Signature for Majorana Fermion ? Question: Suggestion:

6 2D trapped ultracold Fermi gas with SO coupling Hamiltonian Single- Particle Hamiltonian Interaction Hamiltonian Renormalization Rashba SO CouplingDresselhaus SO Coupling

7 2D trapped ultracold Fermi gas with SO coupling MF BdG Equantion Bogoliubov Transformation BdG Hamiltonian Gap Function Single Vortex Quansiparticle wave function Liu, Hu and Drummond, PRA75, 023614(2007)

8 2D trapped ultracold Fermi gas with SO coupling “trival” “topological” Majorana Fermion: Particle = Antiparticle Particle-hole transformation

9 2D trapped ultracold Fermi gas with SO coupling Topological Invariants Topological variants

10 2D trapped ultracold Fermi gas with SO coupling Question: Does the Majorana fermion bound state exist? There is not zero mode when the Zeeman field h=0 S-wave interaction without SO couplingso Mixed singlet and triplet pairings

11 2D trapped ultracold Fermi gas with SO coupling helicity basis only E k (-) is occuped p-wave symmetryzero mode bound state Two solutions Majorana fermion: particle is its own antiparticle Fermion operator Majorana fermion is a half of ordinary fermion

12 2D trapped ultracold Fermi gas with SO coupling Phase diagram Non-topological state phase separation state topological state parameters topological state

13 2D trapped ultracold Fermi gas with SO coupling Low-Lying Quasiparticle Spectrum Three branches with small energy spacing appear: “Outer edge” state “Inner edge” state Vortex core GdGM state (garoli-de Gennes-Matricon) Phase separation phase: “outer edge” and “inner edge” Topological state: “outer edge” and “GdGM state”

14 2D trapped ultracold Fermi gas with SO coupling Wave Function a bond and anti-bond hybridization and quasiparticle tunneling energy splitting PS phase: tunneling between two edge states T state: tunneling between outer edge state and “GdGM state” Exponentially small energy zero

15 Probing Majorana Fermion Experimental Signature spin-up and spin-down densities at the trap center

16 Probing Majorana Fermion Experimental Signature local density of state rf-spectroscopy 40 K, B=225.3G, Ea/E F=0.2 N=2000, Kohl’s group PRL 2011

17 Application: Topological quantum computation using Majorana Fermions as qubits

18 1D trapped ultracold Fermi gas with SO coupling Hamiltonian Rashba SO CouplingDresselhaus SO Coupling

19 1D trapped ultracold Fermi gas with SO coupling Topological superfluid

20 1D trapped ultracold Fermi gas with SO coupling Phase diagram

21 1D trapped ultracold Fermi gas with SO coupling h/E F =0.5

22 Manipulating Majorana Fermions Transport Majorana Fermions: Zeeman field h/E F =0.5 h/E F =0.6

23 Manipulating Majorana Fermions

24 Create Majorana Fermions: Magnetic impurity potential h/E F =0.5

25 Manipulating Majorana Fermions Magnetic impurity potential

26 Manipulating Majorana Fermions 40 K SO Coupled ultracold atomic gases Spielman’s group Nature Vol 471, 83 (2011)

27 Open Question: Topological quantum computation SO coupled bosonic system Topological superfluidity

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