Newsroom

A large and unexpected excess of top quark pairs has the physics community excited, but the interpretation is still up for debate.

Fermilab is finalizing a partnership with Diraq and several universities for the Quandarum project. The project team intends to combine extreme environment electronics and silicon spin qubits to develop a quantum sensor that could profoundly impact the field of high-energy physics.

A new data release from the Dark Energy Spectroscopic Instrument is now available for researchers to explore. The collection contains information on 18.7 million galaxies, quasars, and stars — the largest dataset of its kind ever shared.

The Dark Energy Spectroscopic Instrument used millions of galaxies and quasars to build the largest 3D map of our universe to date. Combining the DESI data with other experiments shows signs that the impact of dark energy may be weakening over time — and the standard model of how the universe works may need an update.

On March 2, 1995, the top quark discovery at Fermilab was announced by scientists on the CDF and DZero collaborations, and the sixth and final quark was added to the Standard Model. We ask two members of the collaborations to reflect on this groundbreaking moment in particle physics.

A trio of Lederman fellows at Fermilab are developing ways to use quantum technology to probe the universe for dark matter and other physics phenomena. While doing so, they are sharing their enthusiasm for their work to inspire the next generation of scientists.

Anna Grassellino, a senior scientist and the director of the Superconducting Quantum Materials and Systems Center at Fermilab, was honored with the Knight of the Order of Merit of the Italian Republic for her pioneering contributions to superconducting quantum technologies. Known for her groundbreaking work on superconducting radiofrequency cavities, Grassellino has helped to revolutionize and lead advancements in particle accelerators and quantum information science.

Documenting the work of building the world’s largest neutrino experiment presents photographers with a unique set of challenges.

High-power electron beam accelerators could be the answer to the nation’s need for powerful and safe alternatives to radioactive power sources. Funding from the National Nuclear Security Administration’s Office of Radiological Security aims to support a team of engineers, scientists and business specialists in forging a path to help industry adopt these mighty accelerators.