Juan Daniel Torres Luna, Sathish R. Kuppuswamy, Anton R. Akhmerov
Published 2023-07-06Version 1
Braiding of Majorana states demonstrates their non-Abelian exchange statistics. One implementation of braiding requires control of the pairwise couplings between all Majorana states in a trijunction device. In order to have adiabaticity, a trijunction device requires the desired pair coupling to be sufficently large and the undesired couplings to vanish. In this work, we design and simulate of a trijunction device in a two-dimensional electron gas with a focus on the normal region that connects three Majorana states. We use an optimisation approach to find the operational regime of the device in a multi-dimensional voltage space. Using the optimization results, we simulate a braiding experiment by adiabatically coupling different pairs of Majorana states without closing the topological gap. We then evaluate the feasibility of braiding in a trijunction device for different shapes and disorder strengths.
Evidence of spontaneous spin polarization in the two-dimensional electron gas
Hopf term and the effective Lagrangian for the Skyrmions in a two-dimensional electron gas at small g-factor
Spin orientation of two-dimensional electron gas under intraband optical pumping
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