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
The Faculty’s seven departments have been recognised for demonstrating research of 3* and 4* world-leading and internationally excellent standard in the 2014 Research Excellence Framework (REF).
Fri 19 December 2014
Envision brings together a powerful group of UK researchers with 44 industry and NGO partners to provide a new generation of environmental scientists with the skills, knowledge and experience they need to take on the challenges of a changing world.
Wed 17 December 2014
Research into child development is to benefit from two awards worth a total of £1.3m from The Leverhulme Trust.
Story supplied by LU Press Office
Mon 08 December 2014
Students and staff this week witnessed a significant development in the construction of two new super-labs providing teaching space for more than 200 students.
Wed 26 November 2014