Related papers: Asymptotic localization of symbol correspondences for spin systems and sequential quantizations of $S^2$

Asymptotic localization of symbol correspondences for spin systems and sequential quantizations of $S^2$

URL: http://arxiv.org/abs/2004.03929v5
Date: Mon, 4 Jul 2022 19:51:10 GMT
Title: Asymptotic localization of symbol correspondences for spin systems and sequential quantizations of $S^2$
Authors: P. A. S. Alcantara and P. de M. Rios
Abstract summary: Quantum or classical mechanical systems under $SU(2)$ are called spin systems. For some important kinds of symbol correspondence sequences, such a classical localization condition is equivalent to emergence of the Poisson algebra. For each sequence of symbol correspondences of (anti-) type, we define the quantization of a smooth function on $S2$ and its operator acting on ground space.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: Quantum or classical mechanical systems symmetric under $SU(2)$ are called spin systems. A $SU(2)$-equivariant map from $(n+1)$-square matrices to functions on the $2$-sphere S^2, satisfying some basic properties, is called a spin-$j$ symbol correspondence ($n = 2j \in \mathbb{N}$). Given a spin-$j$ symbol correspondence, the matrix algebra induces a twisted $j$-algebra of symbols. In the first part of this paper, we establish a more intuitive criterion for when the Poisson algebra of smooth functions on $S^2$ emerges asymptotically ($n \to \infty$) from the sequence of twisted $j$-algebras. This more geometric criterion, which in many cases is equivalent to the numerical criterion obtained in [20] for describing symbol correspondence sequences of (anti-)Poisson type, is now given in terms of a classical (asymptotic) localization of symbols of all projectors (quantum pure states) in a certain family. For some important kinds of symbol correspondence sequences, such a classical localization condition is equivalent to asymptotic emergence of the Poisson algebra. But in general, the classical localization condition is stronger than Poisson emergence. We thus also consider some weaker notions of asymptotic localization of projector-symbols. In the second part of this paper, for each sequence of symbol correspondences of (anti-)Poisson type, we define the sequential quantization of a smooth function on $S^2$ and its asymptotic operator acting on a ground Hilbert space. Then, after presenting some concrete examples of these constructions, we obtain some relations between asymptotic localization of a symbol correspondence sequence and the asymptotics of its sequential quantization of smooth functions on $S^2$.

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