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.
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.
Cindy Regal, CUbit's Associate Director for Science, joined CU Boulder in 2010. Her research explores quantum information and optics in isolated quantum systems. In particular, she focuses on manipulating single and few neutral atoms and the quest to control single phonons in mesoscopic mechanical oscillators.
In this webinar, Anita Ramanan, a Senior Quantum Software Engineer at Microsoft, will introduce the topological qubit, the novel implementation in development at Microsoft. She’ll also introduce Azure Quantum, which brings together all of the company’s quantum efforts, including hardware, cryo-control, the open-source Quantum Development Kit, and quantum-inspired optimization, which today can provide speedup using classical hardware and code by emulating certain quantum processes.
The QIST Summit, organized by Brookhaven National Laboratory, is the seventh in DOE’s InnovationXLab series: a showcase of the remarkable assets and capabilities of the Department’s National Laboratories. These summits facilitate a two-way exchange of information and ideas between industry, universities, investors, and end-use customers with Lab innovators and experts.
The InnovationXLab QIST Summit will connect leaders in the finance and banking, technology, communications, energy and materials sciences sectors to discuss how to accelerate QIST advancements that impact the nation and world.