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28 March 2005 Quantum multiresolution analysis via fast Fourier transform on Heisenberg group
Ekaterina Rundblad, Valeriy G. Labunets, Peter Novak
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Proceedings Volume 5813, Multisensor, Multisource Information Fusion: Architectures, Algorithms, and Applications 2005; (2005) https://doi.org/10.1117/12.603731
Event: Defense and Security, 2005, Orlando, Florida, United States
Abstract
We study classical and quantum harmonic analysis of phase space functions (classical observes) on finite Heisenberg group HW2N+1(ZNmn, ZNmn, Zmn) over the ring Zmn. This group is the discrete version of the real Heisenberg group HW2N+1(RN, RN, R), where R is the real field. These functions have one dimensional and m1, m2,...,mn-dimensions matrix valued spectral components (for irreducible representations of HW2N+1. The family of all 1D representations gives classical world world (CW). Various mi-dimension representations (i=1,2,...,n) map classical world (CW) into quantum worlds QW}mi of ith resolution i=1,2,...,n). Worlds QW(m1) and QW(mn) contain rough information and fine details about quantum word, respectively. In this case the Fourier transform on the Heisenberg group can be considered as Weyl quantization multiresolution procedure. We call this transform the natural quantum Fourier transform.
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Ekaterina Rundblad, Valeriy G. Labunets, and Peter Novak "Quantum multiresolution analysis via fast Fourier transform on Heisenberg group", Proc. SPIE 5813, Multisensor, Multisource Information Fusion: Architectures, Algorithms, and Applications 2005, (28 March 2005); https://doi.org/10.1117/12.603731
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KEYWORDS
Fourier transforms
Quantization
Quantum mechanics
Space operations
Matrices
Mechanics
Quantum information
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