about
Majorana bound states from exceptional points in non-topological superconductorsMagnetically-driven colossal supercurrent enhancement in InAs nanowire Josephson junctions.Majorana fermions in superconducting 1D systems having periodic, quasiperiodic, and disordered potentials.Signatures of majorana zero modes in spin-resolved current correlations.Topological superconductivity and Majorana fermions in RKKY systems.Majorana Kramers pairs in Rashba double nanowires with interactions and disorderTopological phase detection in Rashba nanowires with a quantum dotDetecting topological superconductivity with φ0 Josephson junctionsFloquet Majorana fermions and parafermions in driven Rashba nanowiresLow-field topological threshold in Majorana double nanowiresSpin and charge signatures of topological superconductivity in Rashba nanowiresSpin-dependent coupling between quantum dots and topological quantum wiresThree-dimensional fractional topological insulators in coupled Rashba layersChiral and nonchiral edge states in quantum Hall systems with charge density modulationFrom coupled Rashba electron- and hole-gas layers to three-dimensional topological insulatorsMajorana bound states in magnetic skyrmionsProbing atomic structure and Majorana wavefunctions in mono-atomic Fe chains on superconducting Pb surfaceTopological Floquet Phases in Driven Coupled Rashba NanowiresTopological phases of inhomogeneous superconductivityAntiferromagnetic nuclear spin helix and topological superconductivity inC13nanotubesFermionic and Majorana bound states in hybrid nanowires with non-uniform spin-orbit interactionFractional charge and spin states in topological insulator constrictionsInteger and fractional quantum anomalous Hall effect in a strip of stripes modelProximity-InducedπJosephson Junctions in Topological Insulators and Kramers Pairs of Majorana FermionsTowards a realistic transport modeling in a superconducting nanowire with Majorana fermionsGiant Spin-Orbit Interaction Due to Rotating Magnetic Fields in Graphene NanoribbonsTransition from Fractional to Majorana Fermions in Rashba NanowiresRobustness of Majorana bound states in the short-junction limit
P2860
Q36569616-8B8E79B7-9285-4CAD-9401-C5DAB04380F0Q42004431-7D110301-1B57-4405-9441-514339D33995Q50482207-429F78DD-2033-4260-A26D-36CC57BFA1BAQ52866882-D54B8C51-52B5-4A6A-8EE2-02A91E5FFBF3Q54593875-FE1B955E-91B2-48EF-8852-EB72CCD2FC22Q57404066-001F454B-DF5B-4E3B-8173-C8BEFB5D03E5Q57404071-4B847C96-FD16-412F-B68B-7B270E1BCBAEQ57404074-D2239255-316F-4CB2-9278-1E223070EF1CQ57404077-1895BEDB-7390-40D0-BF3F-B51E05173776Q57404079-D820946E-D88E-4ADF-A5E0-8CD9F97571F1Q57404082-55B15480-CE6F-4139-8D71-216D0F35E999Q57404084-C5FD831A-67F6-4750-8144-1B3CAA09A477Q57404086-D939BC9A-8F30-42F2-8AF9-8B4A708B42BDQ57404087-74FB7914-CFB2-4C1E-A651-EA2633FF0178Q57404091-7088C7FD-47DA-4A14-BAE2-E656D10F7834Q57404095-54AD121D-A59D-48AE-BD2E-9A0E879228E9Q57404098-7A2111BC-38B3-49D8-9777-A4451946E0A7Q57404100-1B43C463-967E-46BF-8F76-FC3BAB8F144CQ57404101-6C59BEF9-B2C3-4D55-A3CC-82EB0CD9B2DCQ57404102-1748A2AC-9B1E-400E-9996-6F7775E28E00Q57404105-009A5F99-B1CA-4E9C-B94F-24D5BB7B62F0Q57404106-6D849AEB-4791-4C7B-B5AB-B00A8AFA47E7Q57404110-27B285C5-0DA8-47EC-9496-F4D6187D6FBAQ57404114-38AE3A1A-185E-49C9-9A3C-DC4F8091E1AFQ57404128-CB2F8F93-16E5-4DAC-9D10-39B986F77AE9Q57404133-4BE5DD9E-C230-446A-BEFE-5AD5907B3362Q57404156-754213BA-F8CD-4288-AA3C-E345F717CAD4Q59107204-97AD1F9A-1509-402C-9BFE-7D91450EB636
P2860
description
im August 2012 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в серпні 2012
@uk
name
Composite Majorana fermion wave functions in nanowires
@en
Composite Majorana fermion wave functions in nanowires
@nl
type
label
Composite Majorana fermion wave functions in nanowires
@en
Composite Majorana fermion wave functions in nanowires
@nl
prefLabel
Composite Majorana fermion wave functions in nanowires
@en
Composite Majorana fermion wave functions in nanowires
@nl
P2860
P1433
P1476
Composite Majorana fermion wave functions in nanowires
@en
P2860
P356
10.1103/PHYSREVB.86.085408
P407
P577
2012-08-06T00:00:00Z