English

Inflation and Higgs

High Energy Physics - Phenomenology 2015-06-01 v1

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) r=O(0.010.1)r = {\cal O}(0.01-0.1), (ii) r=O(103)r = {\cal O}(10^{-3}), and (iii) r103r \ll 10^{-3}. 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 BLB-L 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 BLB-L Higgs inflation requires the SUSY breaking scale of order O(100){\cal O}(100)\,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.

Keywords

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

R2 v1 2026-06-22T09:43:40.638Z