Kosterlitz-thouless transition and self-duality in three dimensions

Daniel J. Amit; Shmuel Elitzur; Eliezer Rabinovici; Robert Savit

doi:10.1016/0550-3213(82)90250-4

Kosterlitz-thouless transition and self-duality in three dimensions

Daniel J. Amit^*, Shmuel Elitzur, Eliezer Rabinovici, Robert Savit

^*Corresponding author for this work

Racah Institute of Physics

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

23 Scopus citations

Abstract

A class of self-dual globally symmetric Z_N models in three dimensions is presented. The limit N → ∞ is a type of anisotropic U(1) model (XY model) dual to a gas of integer point charges, interacting via a logarithmic potential in three dimensions. The latter is, at low temperature, nothing but a sine-Gordon theory with an anisotropic, logarithmic propagator. It therefore has a low-temperature Kosterlitz-Thouless phase and KT phase transition to a massive phase. The relation of the U(1) model to the thermodynamics of a helical magnet along the ferromagnetic-helical phase boundary in zero applied field (or to the smectic A to amectic C phase boundary in a liquid crystal) is indicated.

Original language	English
Pages (from-to)	69-92
Number of pages	24
Journal	Nuclear Physics B
Volume	210
Issue number	1
DOIs	https://doi.org/10.1016/0550-3213(82)90250-4
State	Published - 30 Aug 1982

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title = "Kosterlitz-thouless transition and self-duality in three dimensions",

abstract = "A class of self-dual globally symmetric ZN models in three dimensions is presented. The limit N → ∞ is a type of anisotropic U(1) model (XY model) dual to a gas of integer point charges, interacting via a logarithmic potential in three dimensions. The latter is, at low temperature, nothing but a sine-Gordon theory with an anisotropic, logarithmic propagator. It therefore has a low-temperature Kosterlitz-Thouless phase and KT phase transition to a massive phase. The relation of the U(1) model to the thermodynamics of a helical magnet along the ferromagnetic-helical phase boundary in zero applied field (or to the smectic A to amectic C phase boundary in a liquid crystal) is indicated.",

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AU - Amit, Daniel J.

AU - Elitzur, Shmuel

AU - Rabinovici, Eliezer

AU - Savit, Robert

PY - 1982/8/30

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N2 - A class of self-dual globally symmetric ZN models in three dimensions is presented. The limit N → ∞ is a type of anisotropic U(1) model (XY model) dual to a gas of integer point charges, interacting via a logarithmic potential in three dimensions. The latter is, at low temperature, nothing but a sine-Gordon theory with an anisotropic, logarithmic propagator. It therefore has a low-temperature Kosterlitz-Thouless phase and KT phase transition to a massive phase. The relation of the U(1) model to the thermodynamics of a helical magnet along the ferromagnetic-helical phase boundary in zero applied field (or to the smectic A to amectic C phase boundary in a liquid crystal) is indicated.

AB - A class of self-dual globally symmetric ZN models in three dimensions is presented. The limit N → ∞ is a type of anisotropic U(1) model (XY model) dual to a gas of integer point charges, interacting via a logarithmic potential in three dimensions. The latter is, at low temperature, nothing but a sine-Gordon theory with an anisotropic, logarithmic propagator. It therefore has a low-temperature Kosterlitz-Thouless phase and KT phase transition to a massive phase. The relation of the U(1) model to the thermodynamics of a helical magnet along the ferromagnetic-helical phase boundary in zero applied field (or to the smectic A to amectic C phase boundary in a liquid crystal) is indicated.

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Kosterlitz-thouless transition and self-duality in three dimensions

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