Third-generation-philic Hidden Naturalness
Abstract
We present a solution to the electroweak hierarchy problem, where the relevant new particles are third-generation-philic and hidden in SM processes with third-generation fermions. Due to this feature, the mass bounds from direct searches are much weaker and the required fine-tuning can be reduced drastically. A concrete model is constructed based on a fundamental composite Higgs model with collective symmetry breaking and extended hypercolor mechanism. The construction allows to raise the scale to TeV, corresponding to resonances at TeV, without much tuning - employing ingredients that are naturally inherent in the (composite) Goldstone-Higgs framework. The experimental signatures are discussed in detail. It is found that current bounds allow for a model with negligible tuning.
Cite
@article{arxiv.2311.17169,
title = {Third-generation-philic Hidden Naturalness},
author = {Yi Chung and Florian Goertz},
journal= {arXiv preprint arXiv:2311.17169},
year = {2023}
}
Comments
9 pages, 1 figure