Field Induced Oscillation of Two Majorana Modes for a finite Quantum Wire

Abstract

The evolution of quantum walk on a finite wire under a small increment of vector potential α can exhibit intrinsic quantum oscillation of the two topologically protected bound states corresponding to the Majorana modes. By tuning an external electric field corresponding to the addition of an α impulse at the end of each intrinsic period, the intrinsic oscillation is enveloped by a beat modulation with a longer period. This beat oscillation is useful in the preparation of decoherence-free qubit in trapped ion chain and may be observed in several experiments.