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Paper detail

Orbifold equivalence and the sign problem at finite baryon density

We point out that SO(2N_{c}) gauge theory with N_{f} fundamental Dirac fermions does not have a sign problem at finite baryon number chemical potential μ_{B}. One can thus use lattice Monte Carlo simulations to study this theory at finite density. The absence of a sign problem in the SO(2N_{c}) theory is particularly interesting because a wide class of observables in the SO(2N_{c}) theory coincide with observables in QCD in the large N_{c} limit, as we show using the technique of large N_{c} orbifold equivalence. We argue that the orbifold equivalence between the two theories continues to hold at μ_{B} \neq 0 provided one adds appropriate deformation terms to the SO(2N_{c}) theory. This opens up the prospect of learning about QCD at μ_{B} \neq 0 using lattice studies of the SO(2N_{c}) theory.

preprint2011arXivOpen access
Aleksey ChermanMasanori HanadaDaniel Robles-Llana
hep-phhep-lathep-th
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Aleksey ChermanMasanori HanadaDaniel Robles-Llana

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