Tomographic Representation of Quantum Mechanics and Statistical Physics

Olga V. Man'ko

arXiv:0902.4593·quant-ph·November 13, 2009

Tomographic Representation of Quantum Mechanics and Statistical Physics

Olga V. Man'ko

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TL;DR

This paper reviews tomographic methods in quantum mechanics and statistical physics, illustrating how star-product quantization and classical statistical mechanics can be represented through photon-number and symplectic tomography.

Contribution

It provides a comprehensive overview of tomographic representations, connecting quantum and classical frameworks via star-product quantization techniques.

Findings

01

Photon-number tomography exemplifies star-product quantization.

02

Symplectic tomography bridges quantum and classical statistical mechanics.

03

Tomographic methods offer unified representations of physical systems.

Abstract

A review of the photon-number tomography and symplectic tomography as examples of star-product quantization is presented. The classical statistical mechanics is considered within the framework of the tomographic representation.

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