Charged Higgs Boson: Tracer of the Physics beyond Standard Model

Shou-hua Zhu (Peking U)

arXiv:1410.4310·hep-ph·October 17, 2014

Charged Higgs Boson: Tracer of the Physics beyond Standard Model

Shou-hua Zhu (Peking U)

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TL;DR

This paper discusses the significance of the charged Higgs boson as a key indicator of physics beyond the Standard Model, emphasizing its potential to be detected through top quark polarization measurements.

Contribution

It introduces a new approach to measure tanβ precisely by utilizing top quark polarization data in charged Higgs boson phenomenology.

Findings

01

Charged Higgs boson is a promising BSM signal.

02

Top quark polarization can be used to measure tanβ accurately.

03

The paper highlights the importance of charged Higgs in BSM physics.

Abstract

Charged Higgs boson can exist in many physics beyond the standard models (BSM) and it is the obvious BSM signal. We briefly describe why the 125GeV scalar discovered at the LHC must have (heavy) companion: the charged Higgs boson, in a new paradigm. We then focus on the charged Higgs phenomenology, especially on how to measure $tan β$ precisely utilizing the top quark polarization information.

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Taxonomy

TopicsParticle physics theoretical and experimental studies · Computational Physics and Python Applications · Distributed and Parallel Computing Systems