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In recent years, scientists have found ways to study black holes, listening to the gravitational waves they unleash when they collide and even creating an image of one by combining information from radio telescopes around the world. But our knowledge of black holes remains limited. So scientists are figuring out how to make do with substitutes — analogs to black holes that may hold answers to mysteries about gravity and quantum mechanics.

Nord and a University of Chicago scientist will apply the tools of artificial intelligence to accelerate discovery by automating the design and execution of cosmic experiments. The grant is part of an initiative to provide seed funding for collaborative projects in AI and quantum science between the university, Fermilab and Argonne National Laboratory.

On July 15 in Ghent, Belgium, the European Physical Society formally presented the CDF and DZero collaborations with the High Energy and Particle Physics Prize “for the discovery of the top quark and the detailed measurement of its properties.”

Giaccone’s research focuses on particle accelerator cavities — the structures that transfer energy to particle beams as the beams race through them. She and her team use plasma to process the inner surface of the cavities in order to remove contaminations. This new technique results in a better-performing accelerator. Her work was recently recognized at the International Conference on RF Superconductivity.

The DOE Project Leadership Institute has recognized Lari and her capstone project teammates for for their outstanding case study analysis with the 2018 Capstone Project Award.

The Long-Baseline Neutrino Facility team is in the process of rehabilitating an old mining tunnel in South Dakota for the installation of a conveyor system to transport rock. In June, they reached a milestone when they finished the rebuilding of the portal to the tunnel.

Chang Kee Jung almost lost his way as a risk-taking student, but after a university took a chance on him, he grew into a leader in physics.

Imagine a particle. What comes to mind? If you aren’t a theoretical particle physicist, chances are you picture a tiny ball, bobbing in space. But that’s not quite correct. One way to prove it: Try to imagine that tiny ball as a particle with no mass. If a particle has no mass, how can it exist?

In the world of particle physics, scientists work with tiny, invisible particles, tracking their collisions and interactions with one another. But what if you could render them as music? What would these songs of the subatomic sound like? Adam Nadel, Fermilab’s 2018 artist-in-residence, worked with scientists at Fermilab and set out to do just that. Read on to hear his music.

As president, Frieman will oversee the affairs and business of the esteemed organization. More than 1,000 scientists every year visit the center to explore new research in physics, astrophysics and related fields.