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Quantum Algorithms
Entropic Uncertainty Relations for Mutually Unbiased Operator Frames
arXiv
Authors: Jesni Shamsul Shaari, Stefano Mancini
Year
2026
Paper ID
69867
Status
Preprint
Abstract Read
~2 min
Abstract Words
121
Citations
N/A
Abstract
We develop an operator-frame formulation of entropic uncertainty relations in the Hilbert-Schmidt space of operators. For general continuous indexed operator frames, we derive an entropic uncertainty relation for the associated coefficient distributions by combining endpoint norm estimates with Riesz-Thorin interpolation. We then identify a distinguished class of mutually unbiased operator frames, defined through constant-modulus trace overlaps. Under suitable structural conditions, the corresponding coefficient amplitudes are related by a bilinear Fourier transform, leading to a stronger Hirschman-Beckner-type entropic uncertainty relation. As canonical realizations, we consider Weyl displacement operators and Wigner kernels, as well as Cartesian dyadic frames generated by position and momentum eigenstates. These examples recover familiar continuous-variable Fourier dualities while extending entropic uncertainty relations beyond measurement outcomes to operator representations themselves.
Why This Paper Matters
- It adds a 2026 reference point for readers tracking recent quantum research.
- We develop an operator-frame formulation of entropic uncertainty relations in the Hilbert-Schmidt space of operators.
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