Inflation and Higgs
Abstract
We briefly review several Higgs inflation models and discuss their cosmological implications. We first classify the inflation models according to the predicted value of the tensor-to-scalar ratio: (i) , (ii) , and (iii) . For each case we study (i) the Higgs inflation with a running kinetic term, (ii) the Higgs inflation with a non-minimal coupling to gravity, and (iii) the Higgs inflation. In the last case we introduce supersymmetry to suppress the Coleman-Weinberg corrections for successful inflation, and derive the upper bound on the SUSY breaking scale. Interestingly, the SUSY Higgs inflation requires the SUSY breaking scale of order \,TeV to explain the observed spectral index. We briefly discuss a topological Higgs inflation which explains the origin of the standard model near-criticality. We also mention the possibility of Higgs domain walls and the gravitational waves emitted by the collapsing domain walls.
Cite
@article{arxiv.1505.07950,
title = {Inflation and Higgs},
author = {Fuminobu Takahashi},
journal= {arXiv preprint arXiv:1505.07950},
year = {2015}
}
Comments
6 pages, 1 figure. Presented at the 2nd Toyama International Workshop on "Higgs as a Probe of New Physics 2015" (HPNP2015), Toyama, Japan, February 11-15, 2015. Author's note: This contribution is based on 1006.2801, 1008.2956, 1008.4457, 1108.0070, 1203.0323, 1403.4132, 1408.5556, and 1502.03725