On the conclusive detection of Majorana zero modes: conductance
spectroscopy, disconnected entanglement entropy and the fermion parity noise
- URL: http://arxiv.org/abs/2303.03837v1
- Date: Tue, 7 Mar 2023 12:05:29 GMT
- Title: On the conclusive detection of Majorana zero modes: conductance
spectroscopy, disconnected entanglement entropy and the fermion parity noise
- Authors: Arnav Arora, Abhishek Kejriwal and Bhaskaran Muralidharan
- Abstract summary: nanowires with strong Rashba spin-orbit coupling in the proximity with a superconductor and under a strong Zeeman field can potentially manifest Majorana zero modes at their edges.
We detail mathematical ideas related to the entanglement entropy and the fermion parity fluctuations to faithfully distinguish between true Majorana zero modes and trivial quasi-Majorana zero modes.
- Score: 1.6114012813668934
- License: http://creativecommons.org/licenses/by/4.0/
- Abstract: Semiconducting nanowires with strong Rashba spin-orbit coupling in the
proximity with a superconductor and under a strong Zeeman field can potentially
manifest Majorana zero modes at their edges and are a topical candidate for
topological superconductivity. However, protocols for their detection based on
the local and the non-local conductance spectroscopy have been subject to
intense scrutiny. In this work, by taking current experimental setups into
account, we detail mathematical ideas related to the entanglement entropy and
the fermion parity fluctuations to faithfully distinguish between true Majorana
zero modes and trivial quasi-Majorana zero modes. We demonstrate that the
disconnected entanglement entropy, derived from the von Neumann entanglement
entropy, provides a distinct and robust signature of the topological phase
transition which is immune to system parameters, size and disorders. In order
to understand the entanglement entropy of the Rashba nanowire system, we
establish its connection to a model of interacting spinfull Kitaev chains.
Moreover, we relate the entanglement entropy to the fermionic parity
fluctuation, and show that it behaves concordantly with entanglement entropy,
hence making it a suitable metric for the detection of Majorana zero modes. In
connection with the topological gap protocol that is based on the conductance
spectra, the aforesaid metrics can reliably point toward the topological
transitions even in realistic setups.
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