The Quantum-mechanical Many Body Problem: The Bose Gas

Elliott H. Lieb; Robert Seiringer; Jan Philip Solovej; Jakob Yngvason

arXiv:math-ph/0405004·math-ph·May 23, 2007

The Quantum-mechanical Many Body Problem: The Bose Gas

Elliott H. Lieb, Robert Seiringer, Jan Philip Solovej, Jakob Yngvason

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TL;DR

This paper provides an in-depth analysis of the ground state properties of the Bose gas, presenting recent theoretical results that advance understanding of many-body quantum systems.

Contribution

The authors present new theoretical results on the ground state properties of the Bose gas, expanding previous work and offering detailed insights into its quantum behavior.

Findings

01

Detailed characterization of the Bose gas ground state

02

Advances in mathematical understanding of many-body quantum systems

03

Supersedes previous related work

Abstract

This article gives a detailed presentation of the authors' recent results on the ground state properties of the Bose gas. It is a much expanded version of a talk given by one of the authors (E.H.L.) at the conference "Perspectives in Analysis" at the KTH, Stockholm, June 23, 2003. It is based on, but supersedes, the article math-ph/0204027.

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Taxonomy

TopicsCold Atom Physics and Bose-Einstein Condensates · Quantum, superfluid, helium dynamics · Advanced Thermodynamics and Statistical Mechanics