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Fermilab, UNICAMP and São Paulo Research Foundation collaborate on major international projects for neutrino research

Under a new agreement, the University of Campinas and the São Paulo Research Foundation will play important roles in the Long-Baseline Neutrino Facility and the international Deep Underground Neutrino Experiment, hosted by Fermilab.

Twenty-fifth anniversary of the discovery of the top quark at Fermilab

Twenty-five years ago, scientists on the CDF and DZero particle physics experiments at Fermilab announced one of history’s biggest breakthroughs in particle physics: the discovery of the long-sought top quark. The collaborations on the two experiments jointly made the announcement on March 2, 1995, to much fanfare. We take a look back on this day in Fermilab history a quarter-century ago.

‘Flash photography’ at the LHC

What if you want to capture an image of a process so fast that it looks blurry if the shutter is open for even a billionth of a second? This is the type of challenge scientists on experiments like CMS and ATLAS face as they study particle collisions at CERN’s Large Hadron Collider. An extremely fast new detector inside the CMS detector will allow physicists to get a sharper image of particle collisions.

Particle accelerator technology could solve one of the most vexing problems in building quantum computers

One of the most difficult problems to overcome in developing a quantum computer is finding a way to maintain the lifespan of information held in quantum bits, called qubits. Researchers at Fermilab and Argonne National Laboratory are working to determine whether devices used in particle accelerators can help solve the problem. The team will run simulations on high-performance computers that will enable them to predict the lifespan of information held within these qubits using smaller versions of these devices, taking us one step closer to the age of quantum computing.

Heavy neutrino decay simulation

Finding hidden neutrinos with MicroBooNE

Scientists of the Fermilab experiment MicroBooNE have published the results of a search for a type of hidden neutrino — much heavier than Standard Model neutrinos — that could be produced by Fermilab’s accelerators. These heavy neutrinos are expected to have longer travel times to the MicroBooNE detector than the ordinary neutrinos. This search is the first of its kind performed in a liquid-argon time projection chamber, a type of particle detector. MicroBooNE scientists have used their data to publish constraints on the existence of such heavy neutrinos.

Elementary school invites Fermilab physicists to present reverse science fair

In an educational turning of the tables, first- through fifth-graders evaluated Fermilab scientists’ abilities to illuminate and educate at their school’s first reverse science fair. Three competing groups of scientists demoed neutrino detection, muon precession and particle acceleration in fun, accessible ways, and the elementary school students got to decide who received the blue ribbon.