TWAS-SISSA-Lincei Research Cooperation Visits Programme 2021 for Young scientists from Least Developed Countries
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Romania left out of high-powered laser project
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A new review published in
EPJ H by Clara Matteuzzi, Research Director at the National Institute for Nuclear Physics (INFN) and former tenured professor at the University of Milan, and her colleagues, examines almost three decades of the LHCb experiment - from its conception to operation at the Large Hadron Collider (LHC) - documenting its achievements and future potential.
The LCHb experiment was originally conceived to understand the symmetry between matter and antimatter and where this symmetry is broken - known as charge conjugation parity (CP) violation. Whilst this may seem like quite an obscure area of study, it addresses one of the Universe s most fundamental questions: how it came to be dominated by matter when it should have equally favoured antimatter?
A Physics Breakthrough: More Evidence of New Particles or Forces
This donut-shaped ring is a racetrack for particles called muons. It operates at negative 450 degrees Fahrenheit, and physicists use the machine to study muons as they travel through a magnetic field. Photo credit: Reidar Hahn / Courtesy of Fermilab Physics A Physics Breakthrough: More Evidence of New Particles or Forces
New results from a massive experiment double down on indicating undiscovered influences on particles called muons
April 7, 2021 Twitter Facebook
There are still-undiscovered particles or unknown forces swirling all around us, suggest new results from a massive experiment conducted at the US Department of Energy’s Fermi National Accelerator Laboratory (Fermilab) in Illinois. The findings were analyzed with the help of more than 200 scientists from 35 institutions in seven countries, including physicists from Boston University.