Universal dynamical scaling in the clock model

Kimmo Kaski; J. D. Gunton

doi:10.1103/PhysRevB.28.5371

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Universal dynamical scaling in the clock model

Kimmo Kaski and J. D. Gunton

Phys. Rev. B 28, 5371(R) – Published 1 November 1983

Abstract

The development of order in the clock ( $Z_{N}$ ) model is studied following a quench from a disordered phase to a low-temperature nonequilibrium state below the "ferromagnetic" critical point. The structure factor is shown to obey dynamic scaling for the two cases studied ( $N = 6 and 26$ ) and to be remarkably insensitive to the underlying morphological structure. The scaling functions for both cases are essentially identical to that of the Ising antiferromagnet. The rate of growth of domains is also studied.

Received 10 June 1983

DOI:https://doi.org/10.1103/PhysRevB.28.5371

Authors & Affiliations

Kimmo Kaski and J. D. Gunton

Physics Department, Temple University, Philadelphia, Pennsylvania 19122

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Vol. 28, Iss. 9 — 1 November 1983

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Physical Review B

covering condensed matter and materials physics

Universal dynamical scaling in the clock model

Kimmo Kaski and J. D. Gunton

Phys. Rev. B 28, 5371(R) – Published 1 November 1983

Abstract

Authors & Affiliations

References (Subscription Required)

Issue

Access Options

Physical Review B

covering condensed matter and materials physics

Universal dynamical scaling in the clock model

Kimmo Kaski and J. D. Gunton

Phys. Rev. B 28, 5371(R) – Published 1 November 1983

Abstract

Authors & Affiliations

References (Subscription Required)

Issue

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