Hedgehog loops and finite-temperature transition in Yang-Mills theory

V. A. Belavin; I. E. Kozlov; M. N. Chernodub

doi:10.1134/S1063778809020239

Hedgehog loops and finite-temperature transition in Yang-Mills theory

V. A. Belavin, I. E. Kozlov, M. N. Chernodub

نتاج البحث: نشر في مجلة › مقالة › مراجعة النظراء

ملخص

The dynamics of non-Abelian gauge theory can be described not only in terms of local gauge fields but also in terms of nonlocal gauge-invariant variables known as Wilson loops. In Wilson loop space, specific trajectories (defects) are considered on which Wilson loop operators take values in the center of the underlying gauge group. It is shown that, at finite temperature, the density of static (thermal) defects in the Euclidean formulation of Yang-Mills theory is sensitive to the thermodynamic phase transition: numerical calculations reveal that, in contrast to the gluon-plasma phase, where the defect density is high, the density of static defects is very low in the confining phase.

اللغة الأصلية	الإنجليزيّة
الصفحات (من إلى)	350-354
عدد الصفحات	5
دورية	Physics of Atomic Nuclei
مستوى الصوت	72
رقم الإصدار	2
المعرِّفات الرقمية للأشياء	https://doi.org/10.1134/S1063778809020239
حالة النشر	نُشِر - فبراير 2009
منشور خارجيًا	نعم

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10.1134/S1063778809020239

الملفات والروابط الأخرى

Link to publication in Scopus

قم بذكر هذا

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title = "Hedgehog loops and finite-temperature transition in Yang-Mills theory",

abstract = "The dynamics of non-Abelian gauge theory can be described not only in terms of local gauge fields but also in terms of nonlocal gauge-invariant variables known as Wilson loops. In Wilson loop space, specific trajectories (defects) are considered on which Wilson loop operators take values in the center of the underlying gauge group. It is shown that, at finite temperature, the density of static (thermal) defects in the Euclidean formulation of Yang-Mills theory is sensitive to the thermodynamic phase transition: numerical calculations reveal that, in contrast to the gluon-plasma phase, where the defect density is high, the density of static defects is very low in the confining phase.",

author = "Belavin, {V. A.} and Kozlov, {I. E.} and Chernodub, {M. N.}",

note = "Funding Information: This work was supported in part by the Federal Atomic Energy Agency of the Russian Federation and by the Federal Target-Oriented Research and Technology Program (grant no. 40.052.1.1.1112), and by the Russian Foundation for Basic Research (project nos. 05-02-16206 and 07-02-00237). It was also funded by a joint grant (no. 06-02-04010) from the Russian Foundation for Basic Research and Deutsche Forschungsgemeinschaft.",

year = "2009",

month = feb,

doi = "10.1134/S1063778809020239",

language = "אנגלית",

volume = "72",

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journal = "Physics of Atomic Nuclei",

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AU - Chernodub, M. N.

N1 - Funding Information: This work was supported in part by the Federal Atomic Energy Agency of the Russian Federation and by the Federal Target-Oriented Research and Technology Program (grant no. 40.052.1.1.1112), and by the Russian Foundation for Basic Research (project nos. 05-02-16206 and 07-02-00237). It was also funded by a joint grant (no. 06-02-04010) from the Russian Foundation for Basic Research and Deutsche Forschungsgemeinschaft.

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N2 - The dynamics of non-Abelian gauge theory can be described not only in terms of local gauge fields but also in terms of nonlocal gauge-invariant variables known as Wilson loops. In Wilson loop space, specific trajectories (defects) are considered on which Wilson loop operators take values in the center of the underlying gauge group. It is shown that, at finite temperature, the density of static (thermal) defects in the Euclidean formulation of Yang-Mills theory is sensitive to the thermodynamic phase transition: numerical calculations reveal that, in contrast to the gluon-plasma phase, where the defect density is high, the density of static defects is very low in the confining phase.

AB - The dynamics of non-Abelian gauge theory can be described not only in terms of local gauge fields but also in terms of nonlocal gauge-invariant variables known as Wilson loops. In Wilson loop space, specific trajectories (defects) are considered on which Wilson loop operators take values in the center of the underlying gauge group. It is shown that, at finite temperature, the density of static (thermal) defects in the Euclidean formulation of Yang-Mills theory is sensitive to the thermodynamic phase transition: numerical calculations reveal that, in contrast to the gluon-plasma phase, where the defect density is high, the density of static defects is very low in the confining phase.

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SN - 1063-7788

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Hedgehog loops and finite-temperature transition in Yang-Mills theory

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