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Inducing superconducting correlation in quantum Hall edge states
Lee, Gil-Ho,Huang, Ko-Fan,Efetov, Dmitri K.,Wei, Di S.,Hart, Sean,Taniguchi, Takashi,Watanabe, Kenji,Yacoby, Amir,Kim, Philip NATURE PUBLISHING GROUP 2017 NATURE PHYSICS Vol.13 No.7
The quantum Hall (QH) effect supports a set of chiral edge states at the boundary of a two-dimensional system. A superconductor (SC) contacting these states can provide correlations of the quasiparticles in the dissipationless edge states. Here we fabricated highly transparent and nanometre-scale SC junctions to graphene. We demonstrate that the QH edge states can couple via superconducting correlations through the SC electrode narrower than the superconducting coherence length. We observe that the chemical potential of the edge state exhibits a sign reversal across the SC electrode. This provides direct evidence of conversion of the incoming electron to the outgoing hole along the chiral edge state, termed crossed Andreev conversion (CAC). We show that CAC can successfully describe the temperature, bias and SC electrode width dependences. This hybrid SC/QH system could provide a novel route to create isolated non-Abelian anyonic zero modes, in resonance with the chiral edge states.
Logarithmic singularities and quantum oscillations in magnetically doped topological insulators
Nandi, D.,Sodemann, Inti,Shain, K.,Lee, G. H.,Huang, K.-F.,Chang, Cui-Zu,Ou, Yunbo,Lee, S. P.,Ward, J.,Moodera, J. S.,Kim, P.,Yacoby, A. American Physical Society 2018 Physical Review B Vol.97 No.8
<P>We report magnetotransport measurements on magnetically doped (Bi, Sb)(2)Te-3 films grown by molecular beam epitaxy. In Hall bar devices, we observe logarithmic dependence of transport coefficients in temperature and bias voltage which can be understood to arise from electron-electron interaction corrections to the conductivity and self-heating. Submicron scale devices exhibit intriguing quantum oscillations at high magnetic fields with dependence on bias voltage. The observed quantum oscillations can be attributed to bulk and surface transport.</P>