The Quantum Systems Accelerator, a National Quantum Information Science Research Center led by Berkeley Lab, is stepping up efforts for quantum education and outreach, especially at the high school level, which traditionally has not been regarded as an entry point to quantum science. The outreach should help fill the increasing number of job vacancies in this fast-growing and developing field.
Tag: Quantum Information Science and Quantum Computation
The Sparks That Ignited Curiosity: How Quantum Researchers Found Their Path
In celebration of Hispanic Heritage – Latin American Heritage Month, 5 QSA-affiliated scientists described how they pivoted to quantum information science (QIS) and technology, and why they’re excited about the opportunities for scientific discovery. Featuring Ana Maria Rey, Pablo Poggi, Sergio Cantu, Elmer Guardado Sanchez, and Diego Barberena.
QSA (Quantum Systems Accelerator) is a National QIS Research Center funded by the U.S. Department of Energy (DOE). Berkeley Lab leads QSA with Sandia National Laboratories as the lead partner. QSA is composed of 15 member institutions in the United States and Canada.
C2QA Wraps Up Year Two of its Successful Quantum Computing Summer School Program
Training the next generation of researchers on advanced computing is imperative, but resources for them are limited. That training gap is what inspired the Brookhaven National Laboratory-led Co-design Center for Quantum Advantage (C2QA) to design the QIS101 quantum computing summer school program.
DOE Announces $30 Million for Quantum Information Science to Tackle Emerging 21st Century Challenges
The U.S. Department of Energy (DOE) today announced plans to provide $30 million for Quantum Information Science (QIS) research that helps scientists understand how nature works on an extremely small scale—100,000 times smaller than the diameter of a human hair. QIS can help our nation solve some of the most pressing and complex challenges of the 21st century, from climate change to national security.
Quantum effects help minimise communication flaws
Noise limits the performance of modern quantum technologies. However, particles traveling in a superposition of paths can bypass noise in communication. A collaboration between the Universities of Hong-Kong, Grenoble and Vienna, as well as the Austrian Academy of Sciences, under the lead of Philip Walther, reveals novel techniques to reduce noise in quantum communication.