Weighing its way into reality...

The world of physics has had its share of truly euphoric moments before but none were as much awaited as the one that took place at the Large Hadron Collider at CERN on 4^th July, 2012. Two completely independent experiments, ATLAS and CMS carried out in two different Higgs decay modes confirmed that a new resonance has been found that proves the existence of the last missing piece of the standard model, ‘The Higgs Boson’.

The Standard Model of particle physics that helps us in understanding the dynamics of all the known sub atomic particles and their interactions could not predict the exact mass of the particle named ‘Higgs Boson’ and so it has been extremely difficult for the experimentalists to find out simply because they just didn’t know where to look for! It is the particle that is formed during the Higgs mechanism which is a very crucial part of our understanding of how different particles while flowing through space-time acquire mass and with its discovery mankind has been able to take a significant step towards understanding and appreciating nature and her mysteries.

The discovery of the Higgs boson has its own story held deep within. During the 1960s when it was realized that gauge symmetry was a fundamental aspect of understanding sub atomic interactions in particle physics, the emergence of weak interactions posed a great problem to the physicists of that time. The newly found weak interaction were so short ranged that the mathematics required the exchange of bosons of considerable mass between particles unlike the exchange of the massless photons in electromagnetism. Gauge symmetry completely fell apart because of it and people started looking for ways to develop a mass generation mechanism that is consistent with gauge symmetry.

By that time a mass generation mechanism was developed by Condense matter physicist Phillip Anderson for his own field in 1962. Finding it on a condensed matter journal two groups of particle physicists Robert Brout , Francois Englert and Gerald Guralnik, C.R Hagen, Tom Kibble developed the corresponding relativistic model. This idea was finally applied in the weak interaction problem by Peter Higgs in 1964. These physicists were able to show that when a gauge theory is combined with an additional scalar field with 0 spin, the gauge symmetry can eventually break itself down spontaneously to give the gauge bosons finite mass. And in the process a new particle is created called the Higgs boson.

Ironically it so happened that after Higgs’ paper was rejected by ‘Physics Letters’ (a leading journal of that time) while he was revising it to send it this time to ‘Physical Review’ he added a line at the end mentioning that his analysis implied the existence of one or more new massive spin-less bosons… which eventually came to be known as Higgs Bosons. Later it was realized that these bosons and the same Higgs mechanism is responsible for giving mass to all known particles. That missing term in Higgs calculations that occurred in 1964 turned alive in LHC on 4^th July 2012 after a long wait of 50 years ending the age old mystery of how things in nature acquire mass… why they have to…

P.S – I hope I have been able to create the same excitement in readers as much as Prof. Ravishankar created in me while telling the story of Higgs Boson. It has only been possible because of him.