Related papers: Extendibility of Fermionic Gaussian States

Extendibility of Fermionic Gaussian States

URL: http://arxiv.org/abs/2508.18532v1
Date: Mon, 25 Aug 2025 22:11:10 GMT
Title: Extendibility of Fermionic Gaussian States
Authors: Amir-Reza Negari, Farzin Salek,
Abstract summary: We show that fermionic Gaussian states are $(k_2)$-extendible if and only if they admit a fermionic Gaussian extension.<n>This provides necessary conditions for arbitrary fermionic states and is sufficient within the Gaussian setting.<n>We also provide an SDP criterion for anti-degradability and show that entanglement-breaking channels coincide with replacement channels.
Score: 3.8960102091715108
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: We investigate $(k_1,k_2)$-extendibility of fermionic Gaussian states, a property central to quantum correlations and approximations of separability. We show that these states are $(k_1,k_2)$-extendible if and only if they admit a fermionic Gaussian extension, yielding a complete covariance-matrix characterization and a simple semidefinite program (SDP) whose size scales linearly with the number of modes. This provides necessary conditions for arbitrary fermionic states and is sufficient within the Gaussian setting. Our main result is a finite de Finetti--type theorem: we derive trace-norm bounds between $(k_1,k_2)$-extendible fermionic Gaussian states and separable states, improving previous exponential scaling to linear in the number of modes, with complementary relative entropy and squashed entanglement bounds. For two modes, upper and lower bounds match at order $1/\sqrt{k_1 k_2}$. Extendibility also provides operational support for one of the different notions of separability in fermionic systems. Finally, for fermionic Gaussian channels, we provide an SDP criterion for anti-degradability and show that entanglement-breaking channels coincide with replacement channels, implying no nontrivial entanglement-breaking fermionic Gaussian channels exist.

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