Neutrino experiment now creates anti-neutrinos
Lancaster physicists working on the T2K neutrino experiment are participating in a major step toward understanding why the universe exists.
Neutrinos are tiny particles that pass through matter almost unimpeded, yet they may be responsible for the preponderance of matter over anti-matter in the early universe. They come in three types, and change from one type to another as they travel.
This month, T2K has restarted its beam after a maintenance shutdown, and for the first time has begun producing a beam that is predominantly composed of the anti-matter equivalent of neutrinos: anti-neutrinos.
Lancaster physicists have produced specialized computer algorithms to select data that correspond to a particular type of anti-neutrino interaction. Analysing these data and comparing them with data from neutrino interactions will allow the physicists to look for differences in the behaviour of neutrinos and anti-neutrinos. Such differences could help to account for the existence of the universe.
Mon 09 June 2014
A Faculty team representing science, technology, engineering and maths took part in EDF Energy's 'Science Day' on Saturday 21st March at Heysham Power Station.
Wed 25 March 2015
Professor Roger Jones has replaced Professor Peter Ratoff as Head of the Physics Department. Roger gained a PhD studying neutrino interactions at CERN and Fermilab before starting his career at CERN working at the Large Electron-Positron (LEP) Collider.
Tue 24 March 2015
As part of British Science week, 170 students from 14 schools across the region came to Lancaster University on Wednesday 18th March to compete in science, technology, engineering and mathematics challenges.
Mon 23 March 2015
Lancaster University’s new flagship Engineering Building will provide a beacon of excellence for research and recruitment for the UK’s buoyant and significant engineering industry.
Mon 23 March 2015