The density of states approach at finite chemical potential: A numerical study of the Bose gas.

Roberto Pellegrini; Lorenzo Bongiovanni; Kurt Langfeld; Biagio Lucini; Antonio Rago

Conference ProceedingsOPEN ACCESS

The density of states approach at finite chemical potential: A numerical study of the Bose gas.

Proceedings of Science (2015) 14-18-July-2015

DOI: 10.22323/1.251.0192

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Abstract

Recently, a novel algorithm for computing the density of states in statistical systems and quantum field theories has been proposed. The same method can be applied to theories at finite density affected by the notorious sign problem, reducing a high-dimensional oscillating integral to a more tractable one-dimensional one. As an example we applied the method to the relativistic Bose gas.

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Pellegrini, R., Bongiovanni, L., Langfeld, K., Lucini, B., & Rago, A. (2015). The density of states approach at finite chemical potential: A numerical study of the Bose gas. In Proceedings of Science (Vol. 14-18-July-2015). Proceedings of Science (PoS). https://doi.org/10.22323/1.251.0192

The density of states approach at finite chemical potential: A numerical study of the Bose gas.

Abstract

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