Effects of Quantum Entanglement in Phase Transitions

Brody, D C; Hughston, L P; and Parry, M F. 2010. Effects of Quantum Entanglement in Phase Transitions. Physics Letters A, 374(24), pp. 2424-2428. ISSN 0375-9601 [Article]

Copy

Starting with the canonical ensemble over the space of pure quantum states, we obtain an integral representation for the associated partition function. This is used to calculate the magnetisation of a system of N spin- particles. The results suggest the existence of a first order phase transition that occurs at zero temperature in the absence of spin–spin interactions.

Item Type	Article
Departments, Centres and Research Units	Computing
Date Deposited	22 Feb 2022 11:53
Last Modified	22 Feb 2022 13:33

Explore Further

Hughston, L P

Computing

Physics Letters A

Full text not available from this repository.

Atom

BibTeX

OpenURL ContextObject in Span

OpenURL ContextObject

Dublin Core

MPEG-21 DIDL

Data Cite XML

EndNote

HTML Citation

METS

MODS

RIOXX2 XML

Reference Manager

Refer

ASCII Citation

Export

Downloads