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W2022360137 abstract "We present the first evidence from lattice simulations that the magnetic monopoles in three dimensional compact quantum electrodynamics (cQED3) with N_f=2 and N_f= 4 four-component fermion flavors are in a plasma phase. The evidence is based mainly on the divergence of the monopole susceptibility (polarizability) with the lattice size at weak gauge couplings. A weak four-Fermi term added to the cQED3 action enabled simulations with massless fermions. The exact chiral symmetry of the interaction terms forbids symmetry breaking lattice discretization counterterms to appear in the theory's effective action. It is also shown that the scenario of a monopole plasma does not depend on the strength of the four-Fermi coupling. Other observables such as the densities of isolated dipoles and monopoles and the so-called specific heat show that a crossover from a dense monopole plasma to a dilute monopole gas occurs at strong couplings. The implications of our results on the stability of U(1) spin liquids in two spatial dimensions are also discussed." @default.
W2022360137 created "2016-06-24" @default.
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W2022360137 date "2011-07-05" @default.
W2022360137 modified "2023-09-24" @default.
W2022360137 title "Magnetic monopole plasma phase in(2+1)dcompact quantum electrodynamics with fermionic matter" @default.
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W2022360137 doi "https://doi.org/10.1103/physrevd.84.014502" @default.
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