Semiclassical Approach to Heterogeneous Vacuum Decay

Sep 17, 2015
18 pages
Published in:
  • JHEP 12 (2015) 063
  • Published: Dec 10, 2015
e-Print:

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Abstract: (Springer)
We derive the decay rate of an unstable phase of a quantum field theory in the presence of an impurity in the thin-wall approximation. This derivation is based on the how the impurity changes the (flat spacetime) geometry relative to case of pure false vacuum. Two examples are given that show how to estimate some of the additional parameters that enter into this heterogeneous decay rate. This formalism is then applied to the Higgs vacuum of the Standard Model (SM), where baryonic matter acts as an impurity in the electroweak Higgs vacuum. We find that the probability for heterogeneous vacuum decay to occur is suppressed with respect to the homogeneous case. That is to say, the conclusions drawn from the homogeneous case are not modified by the inclusion of baryonic matter in the calculation. On the other hand, we show that Beyond the Standard Model physics with a characteristic scale comparable to the scale that governs the homogeneous decay rate in the SM, can in principle lead to an enhanced decay rate.
Note:
  • v3: version published in JHEP, very minor changes from v2
  • Higgs Physics
  • Standard Model
  • Beyond Standard Model
  • false vacuum: decay
  • vacuum state: Higgs
  • vacuum: stability
  • electroweak interaction
  • decay: semiclassical
  • new physics