Physics

Observing and braiding topological Majorana modes on programmable quantum simulators

N. Harle, O. Shtanko, et al.

Discover how Nikhil Harle, Oles Shtanko, and Ramis Movassagh demonstrate the verifiable identification and braiding of topological Majorana modes using a superconducting quantum processor. Their innovative approach utilizes a non-adiabatic technique, confirming the existence of localized Majorana modes and offering a new avenue for studying complex quantum phenomena through circuit-based simulations.

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Abstract

This paper demonstrates the verifiable identification and braiding of topological Majorana modes using a superconducting quantum processor as a quantum simulator. By simulating fermions on a one-dimensional lattice subject to a periodic drive, the existence of Majorana modes localized at the edges is confirmed and distinguished from other trivial modes. A non-adiabatic technique is proposed and implemented to simulate braiding, revealing correct braiding statistics. This work opens avenues for studying topological models of matter using circuit-based simulations and showcases the accessibility of complex quantum phenomena via cloud-run quantum simulations.

Publisher

Nature Communications

Published On

Apr 21, 2023

Authors

Nikhil Harle, Oles Shtanko, Ramis Movassagh