Monday, July 2, 2012

1206.7040 (Bum-Hoon Lee et al.)

Oscillating instantons as homogeneous tunneling channels    [PDF]

Bum-Hoon Lee, Wonwoo Lee, Dong-han Yeom
In this paper, we study Einstein gravity with a minimally coupled scalar field accompanied with a potential, assuming an O(4) symmetric metric ansatz. We call an Euclidean instanton is to be an oscillating instanton, if there exists a point where the derivative of the scale factor and the scalar field vanish at the same time. Then we can prove that the oscillating instanton can be analytically continued, both as inhomogeneous and homogeneous tunneling channels. Here, we especially focus on the possibility of a homogeneous tunneling channel. For the existence of such an instanton, we have to assume three things: (1) there should be a local maximum and the curvature of the maximum should be sufficiently large, (2) there should be a local minimum and (3) the other side of the potential should have a sufficiently deeper vacuum. Then, we can show that there exists a number of oscillating instanton solutions and their probabilities are higher compared to the Hawking-Moss instantons. We also check the possibility when the oscillating instantons dominate over the Coleman-DeLuccia channels. We find that some flux compactification models can satisfy such conditions. Thus, for a general vacuum decay problem, we should not ignore the oscillating instanton channels.
View original: http://arxiv.org/abs/1206.7040

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