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Autore principale: Mannucci, Mirco A.
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2508.00023
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author Mannucci, Mirco A.
author_facet Mannucci, Mirco A.
contents The formalism of weak measurement in quantum mechanics has revealed profound connections between measurement theory, quantum foundations, and signal processing. In this paper, we develop a pointer-free derivation of superoscillations, demonstrating that they are a natural and necessary consequence of the geometric structure underlying weak values. We argue that the weak value is best understood as a ratio of geometric deformation, quantifying how an observable transforms the structure of Hilbert space relative to a reference provided by the standard inner product. This deformation acts as a conceptual lens, warping the local structure of quantum states to produce oscillations far exceeding the global Fourier bandwidth. We formalize this by interpreting the weak value as a comparison between a deformed sesquilinear form and the standard one, and explore its deep connections to generalized Rayleigh quotients and the projective geometry of quantum states. This perspective unifies weak values and superoscillations as two facets of a single underlying geometric principle.
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publishDate 2025
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spellingShingle Weak Values as Geometric Lenses: Deformations of Hilbert Space and the Emergence of superoscillations
Mannucci, Mirco A.
Quantum Physics
Computational Engineering, Finance, and Science
The formalism of weak measurement in quantum mechanics has revealed profound connections between measurement theory, quantum foundations, and signal processing. In this paper, we develop a pointer-free derivation of superoscillations, demonstrating that they are a natural and necessary consequence of the geometric structure underlying weak values. We argue that the weak value is best understood as a ratio of geometric deformation, quantifying how an observable transforms the structure of Hilbert space relative to a reference provided by the standard inner product. This deformation acts as a conceptual lens, warping the local structure of quantum states to produce oscillations far exceeding the global Fourier bandwidth. We formalize this by interpreting the weak value as a comparison between a deformed sesquilinear form and the standard one, and explore its deep connections to generalized Rayleigh quotients and the projective geometry of quantum states. This perspective unifies weak values and superoscillations as two facets of a single underlying geometric principle.
title Weak Values as Geometric Lenses: Deformations of Hilbert Space and the Emergence of superoscillations
topic Quantum Physics
Computational Engineering, Finance, and Science
url https://arxiv.org/abs/2508.00023