Emergence of supersymmetry on the surface of three dimensional topological insulators
arXiv:1206.2340 · doi:10.1088/1367-2630/16/1/013044
Abstract
We propose two possible experimental realizations of a 2+1 dimensional spacetime supersymmetry at a quantum critical point on the surface of three dimensional topological insulators. The quantum critical point between the semi-metallic state with one Dirac fermion and the s-wave superconducting state on the surface is described by a supersymmetric conformal field theory within $ε$-expansion. We predict the exact voltage dependence of the differential conductance at the supersymmetric critical point.
8 pages, 2 figures; published version