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Higgs boson

The Higgs boson is a massive spin-0 elementary particle in the Standard Model of particle physics that plays a key role in explaining the mass of other elementary particles. The experimental discovery of a particle consistent with the Higgs was announced in a seminar on July 4, 2012.^[1][2] This particle was first proposed by Professor Peter Higgs of Edinburgh University in 1964 as a means to explain the origin of the masses of the elementary particles by the introduction of an fundamental scalar field. This gives all the fundamental particles mass via a process of spontaneous symmetry breaking called the Higgs Mechanism. The Higgs boson was popularised as the "God particle" by the Nobel Prize-winning physicist Leon M. Lederman in his 1993 popular science book The God Particle: If the Universe Is the Answer, What is the Question? co-written with science writer Dick Teresi.^[3][4]

The Higgs Mechanism

The Higgs Mechanism is vital in explaining the masses of the electroweak W and Z bosons. To understand the problem in giving mass to the vector bosons let us first consider the QED sector of the Standard Model Lagrangian.

${\displaystyle {\mathcal {L}}_{QED}={\overline {\psi }}(i\gamma ^{\mu }\partial _{\mu }-m)\psi -j_{em}^{\mu }A_{\mu }-{\frac {1}{4}}F_{\mu \nu }F^{\mu \nu }}$

Now consider how things will change if we perform a local phase rotation such that:

${\displaystyle \psi (x)\rightarrow \psi '(x)=e^{i\alpha (x)}\psi (x)}$

We would expect the Langrangian to remain invariant under such a rotation since to do otherwise would mean that if I chose a different phase than someone else where we could get different physics results.

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