Boundaries of the sets of quantum realizable values of arbitrary order Bargmann invariants

• URL: http://arxiv.org/abs/2412.09070v1
• Date: Thu, 12 Dec 2024 08:54:11 GMT
• Title: Boundaries of the sets of quantum realizable values of arbitrary order Bargmann invariants
• Authors: Lin Zhang, Bing Xie, Bo Li,
• Abstract summary: We study the boundaries of quantum-realizable values for Bargmann invariants of arbitrary order.<n>Our findings uncover intricate connections between Bargmann invariants and imaginarity, offering a unified perspective on the associated boundary curves.<n>These results enhance our understanding of the physical limits within quantum mechanics and may lead to novel applications of Bargmann invariants in quantum information processing.
• Score: 9.999750154847826
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: In the latest developments within the field of quantum information science, Bargmann invariants have emerged as fundamental quantities, uniquely characterizing tuples of quantum states while remaining invariant under unitary transformations. However, determining the boundaries of quantum-realizable values for Bargmann invariants of arbitrary order remains a significant theoretical challenge. In this work, we completely solve this problem by deriving a unified boundary formulation for these values. Through rigorous mathematical analysis and numerical simulations, we explore the constraints imposed by quantum mechanics to delineate the achievable ranges of these invariants. We demonstrate that the boundaries depend on the specific properties of quantum states and the order of the Bargmann invariants, illustrated by a family of single-parameter qubit pure states. Our findings uncover intricate connections between Bargmann invariants and quantum imaginarity, offering a unified perspective on the associated boundary curves. These results enhance our understanding of the physical limits within quantum mechanics and may lead to novel applications of Bargmann invariants in quantum information processing.

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