TL;DR
This paper discusses the theoretical basis and experimental prospects for studying the Higgs particle, a fundamental component of the Standard Model responsible for mass generation, emphasizing future collider experiments like LHC and ILC.
Contribution
It provides a comprehensive review of the Higgs mechanism's theoretical issues and outlines the experimental strategies for Higgs particle detection and coupling measurement at future colliders.
Findings
Higgs coupling determination is crucial for understanding mass generation.
Future collider experiments will enhance Higgs property measurements.
Theoretical issues on the Higgs mechanism are critically analyzed.
Abstract
The Higgs particle is a new elementary particle predicted in the Standard Model of the elementary particle physics. It plays a special role in the theory of mass generation of quarks, leptons, and gauge bosons. In this article, theoretical issues on the Higgs mechanism are first discussed, and then experimental prospects on the Higgs particle study at the future collider experiments, LHC and ILC, are reviewed. The Higgs coupling determination is an essential step to establish the mass generation mechanism, which could lead to a deeper understanding of particle physics.
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