# Geometric Phases in Majorana Zero-Energy State

**Authors:** Zheng-Chuan Wang

arXiv: 1812.07396 · 2019-06-26

## TL;DR

This paper introduces a generalized geometric phase for Majorana zero-energy states, which can be non-zero and controllable, with potential applications in topological quantum computing.

## Contribution

It proposes a new form of geometric phase for Majorana states and demonstrates its calculation in a hybrid system, expanding understanding of their quantum properties.

## Key findings

- Non-zero geometric phases for Majorana states in specific systems
- Potential use in topological quantum computation
- Analysis of non-adiabatic geometric phases via path integral

## Abstract

The usual Berry phase for a Majorana zero-energy state is zero. In this manuscript, we propose a generalized geometric phase for Majorana zero-energy state, which is non-zero for the electron or hole, respectively. We calculate these non-zero geometric phases in a Ferromagnet (FI)/Topological Insulator (TI)/Superconductor (SC) hybrid system, whose magnetization can be manipulated by changing adiabatically the spin degree of freedom. The non-zero geometric phases have potential application on the topological quantum computation treatment of Majorana zero-energy modes. We also discuss the non-adiabatic geometric phase associated with Majorana zero-energy state by the path integral method.

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Source: https://tomesphere.com/paper/1812.07396