Related papers: Exchange-Symmetrized Qudit Bell Bases and Bell-State Distinguishability

Exchange-Symmetrized Qudit Bell Bases and Bell-State Distinguishability

URL: http://arxiv.org/abs/2412.10297v2
Date: Wed, 18 Dec 2024 18:49:09 GMT
Title: Exchange-Symmetrized Qudit Bell Bases and Bell-State Distinguishability
Authors: Oscar Scholin, Theresa W. Lynn,
Abstract summary: Entanglement of qudit pairs, with single particle Hilbert space dimension $d$, has important potential for quantum information processing. We introduce a generalized Bell basis with definite symmetry under exchange of states between the two particles. We quantify the number of qudit Bell states that can be unambiguously distinguished by devices restricted to linear evolution and local measurement.
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Abstract: Entanglement of qudit pairs, with single particle Hilbert space dimension $d$, has important potential for quantum information processing, with applications in cryptography, algorithms, and error correction. For a pair of qudits of arbitrary even dimension $d$, we introduce a generalized Bell basis with definite symmetry under exchange of states between the two particles. We show that no complete exchange-symmetrized basis can exist for odd $d$. This framework extends prior work on exchange-symmetrized hyperentangled qubit bases, where $d$ is a power of two. As a direct application of our basis, we quantify the number of qudit Bell states that can be unambiguously distinguished by devices restricted to linear evolution and local measurement (LELM). We show that for any even $d$, at most $2d-1$ states can be reliably distinguished, extending known results for $d = 2^n$ and $d=3$.

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