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Research PaperResearchia:202607.14088

Operational Concealment of Measurement Incompatibility by Quantum Channels

Mohd Asad Siddiqui

Abstract

Measurement incompatibility can remain intact at the operator level yet become operationally inaccessible when observations are restricted to the output of a quantum channel; we refer to this phenomenon as operational concealment. We develop a systematic adjoint-kernel framework for operational concealment in which observables are organized into operational equivalence classes determined by the kernel of the adjoint channel. This framework yields a structural classification of channels via kerne...

Submitted: July 14, 2026Subjects: Quantum Physics; Quantum Computing

Description / Details

Measurement incompatibility can remain intact at the operator level yet become operationally inaccessible when observations are restricted to the output of a quantum channel; we refer to this phenomenon as operational concealment. We develop a systematic adjoint-kernel framework for operational concealment in which observables are organized into operational equivalence classes determined by the kernel of the adjoint channel. This framework yields a structural classification of channels via kernel equivalence and monotonicity, together with a concealment robustness measure admitting explicit SDP formulations. It also yields an approximate concealment framework and a geometric characterization of concealment for unbiased binary qubit POVMs under rank-2 unital qubit channels. We show that concealment robustness coincides with standard incompatibility robustness for injective channels but can be strictly smaller for non-injective channels, as demonstrated by explicit analytical families. These results provide a systematic characterization and quantitative treatment of operationally inaccessible measurement incompatibility, with implications for restricted-access quantum information and semi-device-independent certification.


Source: arXiv:2607.11762v1 - http://arxiv.org/abs/2607.11762v1 PDF: https://arxiv.org/pdf/2607.11762v1 Original Link: http://arxiv.org/abs/2607.11762v1

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Date:
Jul 14, 2026
Topic:
Quantum Computing
Area:
Quantum Physics
Comments:
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