How much symmetry do symmetric measurements need for efficient operational applications?

Siudzińska, Katarzyna

doi:10.1088/1751-8121/ad6cb8

J. Phys. A: Math. Theor.

2024

DOI: 10.1088/1751-8121/ad6cb8

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How much symmetry do symmetric measurements need for efficient operational applications?

Katarzyna Siudzińska

Abstract: We introduce a generalization of symmetric measurements to collections of unequinumerous positive, operator-valued measures (POVMs). This provides a uniform description of objects that are more general than symmetric, informationally complete POVMs and mutually unbiased bases, but at the same time less destructive and more noise tolerant. For informationally complete sets, we propose construction methods from orthonormal Hermitian operator bases. The correspondence between operator bases and measurements can b… Show more

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Cited by 2 publications

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Group frames via magic states with applications to SIC-POVMs and MUBs

Feng,

Luo

2024

Commun. Theor. Phys.

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We connect magic (non-stabilizer) states, symmetric informationally complete positive operator valued measures (SIC-POVMs), and mutually unbiased bases (MUBs) in the context of group frames, and study their interplay. Magic states are quantum resources in the stabilizer formalism of quantum computation. SIC-POVMs and MUBs are fundamental structures in quantum information theory with many applications in quantum foundations, quantum state tomography, and quantum cryptography, etc. In this work, we study group frames constructed from some prominent magic states, and further investigate their applications. Our method exploits the orbit of discrete Heisenberg–Weyl group acting on an initial fiducial state. We quantify the distance of the group frames from SIC-POVMs and MUBs, respectively. As a simple corollary, we reproduce a complete family of MUBs of any prime dimensional system by introducing the concept of MUB fiducial states, analogous to the well-known SIC-POVM fiducial states. We present an intuitive and direct construction of MUB fiducial states via quantum T-gates, and demonstrate that for the qubit system, there are twelve MUB fiducial states, which coincide with the H-type magic states. We compare MUB fiducial states and SIC-POVM fiducial states from the perspective of magic resource for stabilizer quantum computation. We further pose the challenging issue of identifying all MUB fiducial states in general dimensions.

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Group frames via magic states with applications to SIC-POVMs and MUBs

Feng,

Luo

2024

Commun. Theor. Phys.

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Informationally overcomplete measurements from generalized equiangular tight frames

Siudzińska

2024

J. Phys. A: Math. Theor.

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Informationally overcomplete measurements find important applications in quantum tomography and quantum state estimation. The most popular are maximal sets of mutually unbiased bases, for which trace relations between measurement operators are well known. In this paper, we introduce a more general class of informationally overcomplete POVMs that are generated by equiangular tight frames of arbitrary rank. This class provides a generalization of equiangular measurements to non-projective POVMs, which include rescaled mutually unbiased measurements and bases. We provide a method of their construction, analyze their symmetry properties, and provide examples for highly symmetric cases. In particular, we find a wide class of generalized equiangular measurements that are conical 2-designs, which allows us to derive the index of coincidence. Our results show benefits of considering a single informationally overcomplete measurement over informationally complete collections of POVMs.

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How much symmetry do symmetric measurements need for efficient operational applications?

Cited by 2 publications

References 61 publications

Group frames via magic states with applications to SIC-POVMs and MUBs

Group frames via magic states with applications to SIC-POVMs and MUBs

Informationally overcomplete measurements from generalized equiangular tight frames

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