JILA Fellow Cindy Regal wins $250k award for cutting-edge research

JILA Fellow Cindy Regal wins $250k award for cutting-edge research

July 29, 2020

Cindy Regal, associate professor of physics at Å·ÃÀ¿Ú±¬ÊÓƵ Boulder, has been selected as the 2020 recipient of Research Corporation for Science Advancement (RCSA)’s Cottrell Frontiers in Research Excellence and Discovery (FRED) Award.

New $25-million center to advance quantum science and engineering

New $25-million center to advance quantum science and engineering

July 29, 2020

Å·ÃÀ¿Ú±¬ÊÓƵ Boulder will receive a $25 million award from NSF to launch a new quantum science and engineering research center. The new center will be led by physicist Jun Ye and is a partnership with 11 other research organizations in the United States and abroad.

The Sisyphean task of cooling molecules

The Sisyphean task of cooling molecules

June 25, 2020

Cooling and trapping atoms has helped scientists advance their understanding of atomic and quantum physics over several decades. Now it’s time to move on to more complex systems, like molecules. A new study from the Ye Lab has found a way to cool yttrium monoxide robustly and efficiently.

Researcher lands grant to broaden quantum systems science

Researcher lands grant to broaden quantum systems science

May 28, 2020

Thanks to a $1.6-million grant, Å·ÃÀ¿Ú±¬ÊÓƵ Boulder Physics Professor Dan Dessau will spend five years striving to make breakthroughs in quantum systems technology. Dessau is one of 20 U.S. scientists to win support from the Emergent Phenomena in Quantum Systems (EPiQS) Initiative at the Moore Foundation.

Reading the secrets of the nanoworld with infrared light

Reading the secrets of the nanoworld with infrared light

May 28, 2020

Using infrared lasers and a new microscope, the Raschke Group has obtained a high-resolution view of molecular coupling in porphyrin nanocrystals. Achieving this high-resolution imaging of molecular function opens doors to study all kinds of phenomenon in the quantum world.

Phases on the move: A quantum game of catch

Phases on the move: A quantum game of catch

April 29, 2020

JILA Fellows Ana Maria Rey and James Thompson have created a controllable, non-equilibrium macroscopic system in the lab in order to study how it behaves when you tune individual parameters. What they found could pave the way for a new foundation in our basic understanding of physics.

Breathing stars and the most beautiful scalpel

Breathing stars and the most beautiful scalpel

April 7, 2020

For many quantum materials, the electronic properties depend on how phonons and electrons are coupled. Using ultrafast laser pulses, the Kapteyn-Murnane Group can study electron-phonon couplings in tantalum diselenide and explain many of the material's essential properties.

Guiding electrons with gold nanostars

Guiding electrons with gold nanostars

March 25, 2020

Quantum technologies could process information even faster if they could harness the speed of light. Using gold nanostars, the Nesbitt Lab have found a way to use light to steer electric currents, which can speed up computers and possibly enable other technologies.

Playing games with quantum entanglement

Playing games with quantum entanglement

March 25, 2020

Our mobile communication networks—known as multiple access channels or MACs—have a fundamental limit on how much data they can handle. Through mathematical logic games, the Graeme Smith Group found that quantum entanglement could boost that fundamental limit.

Keeping up with the Curies: Laser scientists win prestigious physics award

Keeping up with the Curies: Laser scientists win prestigious physics award

Feb. 26, 2020

JILA Fellows Kapteyn and Murnane, whose ultrafast lasers allow scientists to view phenomena that were previously too tiny and quick-moving to observe, were recently honored with a Benjamin Franklin Medal.

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