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Six members of the University of Chicago faculty have been elected to the American Academy of Arts and Sciences, one of the nation’s oldest and most prestigious honorary societies. Included in this year’s selection is Fermilab’s Chief Research Officer, Bonnie Fleming.

Two American bison were born Friday at Fermilab— the first of about 20 bison expected to be born this spring in a 30-acre pasture at the laboratory.

For more than 20 years in experimental particle physics and astrophysics, machine learning has been accelerating the pace of science, helping scientists tackle problems of greater and greater complexity.

Don’t know your convolutional neural networks from your boosted decision trees? Symmetry is here to help.

Here’s what recent DESI measurements suggest — and why it’s too early to update conventional predictions about the Universe’s distant future.

How are cosmology and particle physics connected? Observing the motions of stars and galaxies can reveal the influence of as-yet-undiscovered particles, while studying fundamental particles in the lab can tell us about the birth and evolution of the cosmos.

The Magnet Detectives investigates the story of the assembly of the US-built magnets for the high-luminosity upgrade to the Large Hadron Collider. By doubling the number of protons inside the LHC and improving the beam dynamics, the upgrade will increase experimental datasets by a factor of 10.

The science world is mourning the loss of British theoretical physicist, Peter Higgs who passed away at the age of 94. He was the namesake of the boson that was discovered in 2012. The Higgs boson was a crucial to the theoretical edifice that physicists built known as the standard model of particles and fields.

CERN’s ProtoDUNE has entered a pivotal stage: the filling of one of its two particle detectors with liquid argon. The liquid argon will provide a clean environment for precise measurements in neutrino interactions and allow scientists to detect and study neutrino interactions.

The BREAD experiment has delivered its first results. The table top axion detection system showed how the concept of BREAD iss inexpensive and did not take up a lot of space. BREAD was developed by Fermilab and University of Chicago scientists and aims to study axions to answer the mystery of dark matter.