The JILA Physics Frontier Center brings together talented investigators in a collaborative environment where they share goals, ideas, expertise, and technology in their quest to understand and control complex quantum systems. Four collaborative research activities support this endeavor: (1) Building complex matter from the ground up, (2) Engineering many-body systems using light-matter coupling, (3) Molecular coherence and transformation, and (4) Exploring high-impact synergistic research directions that evolve naturally from research on the frontiers of physics. In their explorations of these physics frontiers, atomic, molecular, and optical physicists work closely with biophysicists, and chemical physicists, as well as experts in precision measurement, nanoscience, and quantum information. 

Quantum Leaps
Research associate Shimon Kolkowitz and his colleagues in the Ye group and Rey theory group have developed a powerful new way to experimentally simulate the complex behavior of electrons in solids. In these experiments, the team uses its...
Molecules at the Quantum Frontier
Deborah Jin, Jun Ye, and their students wrote a review during the summer of 2016 for Nature Physics highlighting the accomplishments and future directions of the relatively new field of ultracold-molecule research. The field was pioneered...
The Beautiful Ballet of Quantum Baseball
The Rey and Ye groups discovered the strange rules of quantum baseball earlier this year. But now, quantum baseball games happen faster, and players (dipolar particles) are no longer free to move or stand wherever they want. Players must...
Recreating Fuels from Waste Gas
Graduate student Mike Thompson of the Weber group wants to understand the basic science of taking carbon dioxide (CO2) produced by burning fossil fuels and converting it back into useful fuels. People could then use these fuels to generate...
Going Viral: The Source of a Spin-Flip Epidemic
For a long time, there’s been a mystery concerning how tiny interactions between individual atoms could lead to really big changes in a whole cloud of independent-minded particles. The reason this behavior is mysterious is that the atoms...

Center Activities

Center News

Deborah Jin and Katharine Gebbie Featured in Scientific American Tribute
Matt Norcia Wins JILA Scientific Achievement Award
Jun Ye Selected for 2015 Presidential Rank Award
Science Buffs Features JILA’s Innovative Platform for Observing the Ultrafast and Ultrasmall