Wiedemann-Franz-type relation between shot noise and thermal conduction of Majorana surface states in a three-dimensional topological superconductor

Abstract

We compare the thermal conductance G thermal (at temperature T) and the electrical shot noise power P shot (at bias voltage V k BT/e) of Majorana fermions on the two-dimensional surface of a three-dimensional topological superconductor. We present analytical and numerical calculations to demonstrate that, for a local coupling between the superconductor and metal contacts, G thermal/P shot= LT/eV (with L the Lorenz number). This relation is ensured by the combination of electron-hole and time-reversal symmetries, irrespective of the microscopics of the surface Hamiltonian, and provides for a purely electrical way to detect the charge-neutral Majorana surface states. A surface of aspect ratio W/L 1 has the universal shot-noise power P shot=(W/L)× (e2/h)× (eV/2π)