Related papers: Entanglement between quantum dots transmitted via Majorana wire: Insights from the fermionic negativity, concurrence and quantum mutual information

Entanglement between quantum dots transmitted via Majorana wire: Insights from the fermionic negativity, concurrence and quantum mutual information

URL: http://arxiv.org/abs/2603.04108v1
Date: Wed, 04 Mar 2026 14:21:30 GMT
Title: Entanglement between quantum dots transmitted via Majorana wire: Insights from the fermionic negativity, concurrence and quantum mutual information
Authors: C. Jasiukiewicz, A. Sinner, I. Weymann, T. Domański, L. Chotorlishvili,
Abstract summary: We study quantum entanglement in a system comprising two quantum dots interconnected through a superconducting nanowire.<n>In the absence of electron correlations, the optimal entanglement occurs when the energy levels coincide with the zero-energy Majorana modes.<n>We propose recipes for robust finite-temperature entanglement transmission via Majorana modes.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: We study quantum entanglement in a system comprising two quantum dots interconnected through the short topological superconducting nanowire, which hosts overlapping boundary Majorana modes. Inspecting the fermionic negativity, we analyze the variation of entanglement against the position of the energy levels of quantum dots and their hybridization with the topological superconducting nanowire. In the absence of electron correlations, the optimal entanglement occurs when the energy levels coincide with the zero-energy Majorana modes, whereas upon increasing the hybridizations, the entanglement is gradually suppressed. Such monotonous behavior is no longer valid when the quantum dot levels are detuned from the zero-energy. Under these circumstances, the quantum dots become maximally entangled for a certain optimal hybridization. Moreover, we study the thermal concurrence to explore the entanglement properties at finite temperatures. We also compute the quantum mutual information and propose recipes for robust finite-temperature entanglement transmission via Majorana modes.

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