Complete wetting of gluons and gluinos - INSPIRE

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Complete wetting of gluons and gluinos

Jul, 1998

15 pages

Published in:

Phys.Lett.B 443 (1998) 338-346

e-Print:

hep-th/9807207 [hep-th]

DOI:

10.1016/S0370-2693(98)01315-X

Report number:

MIT-CTP-2768

View in:

ADS Abstract Service

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Abstract:

Complete wetting is a universal phenomenon associated with interfaces separating coexisting phases. For example, in the pure gluon theory, at

T_c

an interface separating two distinct high-temperature deconfined phases splits into two confined-deconfined interfaces with a complete wetting layer of confined phase between them. In supersymmetric Yang-Mills theory, distinct confined phases may coexist with a Coulomb phase at zero temperature. In that case, the Coulomb phase may completely wet a confined-confined interface. Finally, at the high-temperature phase transition of gluons and gluinos, confined-confined interfaces are completely wet by the deconfined phase, and similarly, deconfined-deconfined interfaces are completely wet by the confined phase. For these various cases, we determine the interface profiles and the corresponding complete wetting critical exponents. The exponents depend on the range of the interface interactions and agree with those of corresponding condensed matter systems.

Note:

15 pages, 5 figures Report-no: MIT Preprint, CTP 2768

gauge field theory: SU(N)
supersymmetry
finite temperature
critical phenomena
domain wall
numerical calculations

References(12)

Figures(0)

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