Wednesday, February 27, 2013

1302.6456 (Roman Pasechnik et al.)

Dark Energy from graviton-mediated interactions in the QCD vacuum    [PDF]

Roman Pasechnik, Vitaly Beylin, Grigory Vereshkov
Adopting the hypothesis about the exact cancellation of vacuum condensates contributions to the ground state energy in particle physics to the leading order in graviton-mediated interactions, we argue that the observable cosmological constant can be dynamically induced by an uncompensated quantum gravity correction to them. To start with, we demonstrate a possible cancellation of the quark-gluon condensate contribution to the total vacuum energy density of the Universe without taking into account the graviton-mediated effects. In order to incorporate the latter, we then calculate the leading-order quantum correction to the classical Einstein equations due to metric fluctuations induced by the non-perturbative vacuum fluctuations of the gluon and quark fields in the quasiclassical approximation. It has been demonstrated that such a correction has a form ~ G Lambda_QCD^6, where G is the gravitational constant, and Lambda_QCD is the QCD scale parameter. We analyze capabilities of this approach based on the synthesis between quantum gravity in the quasiclassical approximation and theory of non-perturbative QCD vacuum for quantitative explanation of the observable Lambda-term.
View original: http://arxiv.org/abs/1302.6456

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