Collapse of a polymer in two dimensions

H. W.J. Blöte; M. T. Batchelor; B. Nienhuis

doi:10.1016/S0378-4371(97)00597-9

Collapse of a polymer in two dimensions

H. W.J. Blöte^*, M. T. Batchelor, B. Nienhuis

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

17 Citations (Scopus)

Abstract

We numerically investigate the influence of self-attraction on the critical behaviour of a polymer in two dimensions, by means of an analysis of finite-size results of transfer-matrix calculations. The transfer matrix is constructed on the basis of the O(n) loop model in the limit n → 0. It yields finite-size results for the magnetic correlation length of systems with a cylindrical geometry. A comparison with the predictions of finite-size scaling enables us to obtain information about the phase diagram as a function of the chemical potential of the loop segments and the strength of the attractive potential. Results for the magnetic scaling dimension can be interpreted in terms of known universality classes. In particular, when the attractive potential is increased, we observe the crossover between the polymer critical behaviour of the self-avoiding walk type to behaviour described earlier for the theta point.

Original language	English
Pages (from-to)	95-103
Number of pages	9
Journal	Physica A: Statistical Mechanics and its Applications
Volume	251
Issue number	1-2
DOIs	https://doi.org/10.1016/S0378-4371(97)00597-9
Publication status	Published - 1 Mar 1998

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title = "Collapse of a polymer in two dimensions",

abstract = "We numerically investigate the influence of self-attraction on the critical behaviour of a polymer in two dimensions, by means of an analysis of finite-size results of transfer-matrix calculations. The transfer matrix is constructed on the basis of the O(n) loop model in the limit n → 0. It yields finite-size results for the magnetic correlation length of systems with a cylindrical geometry. A comparison with the predictions of finite-size scaling enables us to obtain information about the phase diagram as a function of the chemical potential of the loop segments and the strength of the attractive potential. Results for the magnetic scaling dimension can be interpreted in terms of known universality classes. In particular, when the attractive potential is increased, we observe the crossover between the polymer critical behaviour of the self-avoiding walk type to behaviour described earlier for the theta point.",

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T1 - Collapse of a polymer in two dimensions

AU - Blöte, H. W.J.

AU - Batchelor, M. T.

AU - Nienhuis, B.

PY - 1998/3/1

Y1 - 1998/3/1

N2 - We numerically investigate the influence of self-attraction on the critical behaviour of a polymer in two dimensions, by means of an analysis of finite-size results of transfer-matrix calculations. The transfer matrix is constructed on the basis of the O(n) loop model in the limit n → 0. It yields finite-size results for the magnetic correlation length of systems with a cylindrical geometry. A comparison with the predictions of finite-size scaling enables us to obtain information about the phase diagram as a function of the chemical potential of the loop segments and the strength of the attractive potential. Results for the magnetic scaling dimension can be interpreted in terms of known universality classes. In particular, when the attractive potential is increased, we observe the crossover between the polymer critical behaviour of the self-avoiding walk type to behaviour described earlier for the theta point.

AB - We numerically investigate the influence of self-attraction on the critical behaviour of a polymer in two dimensions, by means of an analysis of finite-size results of transfer-matrix calculations. The transfer matrix is constructed on the basis of the O(n) loop model in the limit n → 0. It yields finite-size results for the magnetic correlation length of systems with a cylindrical geometry. A comparison with the predictions of finite-size scaling enables us to obtain information about the phase diagram as a function of the chemical potential of the loop segments and the strength of the attractive potential. Results for the magnetic scaling dimension can be interpreted in terms of known universality classes. In particular, when the attractive potential is increased, we observe the crossover between the polymer critical behaviour of the self-avoiding walk type to behaviour described earlier for the theta point.

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KW - Theta point

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JO - Physica A: Statistical Mechanics and its Applications

JF - Physica A: Statistical Mechanics and its Applications

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Collapse of a polymer in two dimensions

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