2005
DOI: 10.1103/physrevlett.94.132001
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Dual Meissner Effect and Magnetic Displacement Currents

Abstract: The dual Meissner effect is observed without monopoles in quenched SU(2) QCD with Landau gauge fixing. Magnetic displacement currents that are time-dependent Abelian magnetic fields act as solenoidal currents squeezing Abelian electric fields. Monopoles are not always necessary for the dual Meissner effect. A mean-field calculation suggests that the dual Meissner effect through the mass generation of the Abelian electric field is related to a gluon condensate A(a)(mu)A(a)(mu) not equal 0 of mass dimension 2.

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Cited by 49 publications
(70 citation statements)
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“…[22] where the Landau (LA) gauge is considered and for Abelian components the dual Meissner effect is observed. A magnetic displacement current plays the role of the solenoidal supercurrent which squeezes the Abelian electric fields, although the density of DeGrand-Toussaint monopoles [23] is very small in the LA gauge.…”
Section: Introductionmentioning
confidence: 99%
“…[22] where the Landau (LA) gauge is considered and for Abelian components the dual Meissner effect is observed. A magnetic displacement current plays the role of the solenoidal supercurrent which squeezes the Abelian electric fields, although the density of DeGrand-Toussaint monopoles [23] is very small in the LA gauge.…”
Section: Introductionmentioning
confidence: 99%
“…Next let us study the dual Meissner effect in local unitary gauges. In this calculation, we employ the improved Iwasaki gauge action with the coupling constant β = 1.20, which corresponds to the lattice spacing a(β) = 0.0792(2) fm [27]. The lattice size is 32 4 with periodic boundary conditions.…”
mentioning
confidence: 99%
“…Note that relation (18) makes it possible to rewrite the OZF free energy as a more complicated (compared to (20)) expression in terms of the order parameterQ. The YM theory (14)(15)(16)(17) can be associated with a nematic crystal in which the "molecules" are directed in the internal SO(3) int space. There are three species of equivalent molecules in each space-time point (the number of species equals to the number of the gluons, N c = 3).…”
mentioning
confidence: 99%
“…(16), it can be interpreted as an energy density associated with a mutual non-alignment of the directions of the different molecule species (Φ a ) i (x)/|Φ a (x)|. Let us find the ground state of the nematic associated with the YM theory (15,16,17). In terms of the eigenvalues of the matrix χ = diag(χ 1 , χ 2 , χ 3 ), the ground state χ = χ (0) is defined by the relations:…”
mentioning
confidence: 99%
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