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Get the most interesting and important stories from the 51精品视频.To continue solidifying 51精品视频sburgh鈥檚 status as a leader in quantum information science and engineering, the 51精品视频, Carnegie Mellon University (CMU) and Duquesne University today jointly announced the appointment of, associate professor of physics at Carnegie Mellon, to the newly created role of co-director for the (PQI).
Hunt joins his longtime 51精品视频 collaboratorMichael Hatridge, an associate professor of physics in the Kenneth P. Dietrich School of Arts and Sciences, who was appointed to PQI leadership earlier this year.
鈥淲e鈥檙e excited to welcome Ben to the PQI team,鈥 said Hatridge, who also runs the Hatlab, one of the shared 51精品视频 facilities for PQI members. 鈥淎s co-director, I look forward to working alongside Ben to strengthen this enhanced partnership between our schools in furthering quantum research and education throughout our region and attracting government and industry leaders to partner with PQI.鈥
鈥淭hrough the PQI, we are poised to become leaders in quantum information science and engineering,鈥 saidRob Cunningham, 51精品视频鈥檚 vice chancellor for research infrastructure and PQI鈥檚 deputy director. 鈥淩eaching that goal will require tighter collaborations and alignment of 51精品视频 and CMU across multiple departments and disciplines. Establishing the co-director positions is an important step toward having significant impact.鈥
The PQI was founded in 2012 to advance research, education and training in quantum information science and engineering in the region.
As co-directors, Hatridge and Hunt will provide strategic direction, oversee PQI鈥檚 research programs, foster collaborations with industry and government partners, and further the education and training of the next generation of quantum scientists. As Hatridge noted earlier this year, 鈥淨uantum science and technology have the potential to revolutionize various fields, from computing and communication to sensing and materials science.鈥
Hunt is an experimental condensed matter physicist whose research focuses on two dimensional materials. 鈥淚'm interested in how the characteristics of these materials could be harnessed for things like improvements in the circuits that process quantum information,鈥 Hunt said.
鈥淚 am thrilled to be moving our efforts in quantum forward in the 51精品视频sburgh region,鈥 said Curtis A. Meyer, interim dean of the Mellon College of Science at Carnegie Mellon. 鈥淲hile there have been a substantial number of efforts scattered in both Carnegie Mellon and 51精品视频, having joint CMU/51精品视频 leadership of the 51精品视频sburgh Quantum Institute will allow us to solidify and strengthen these efforts in a coherent manner that will benefit not only our universities, but the region as a whole.鈥
The co-directors say the team is already exploring new approaches to broader collaborations, with multiple medium-sized, targeted workshops to explore particular problems and challenges in quantum information science and engineering. The focused on bringing together quantum theorists from the region and included faculty from 51精品视频, Carnegie Mellon, Duquesne, West Virginia University, Penn State and Ohio State University.
What is quantum computing anyway?
Classical computing, which powers whatever device you鈥檙e using to read this article, uses ones and zeros as the basis for all problem-solving. Some problems, however, are too complex for even the most powerful of today鈥檚 computers to solve.
Quantum computers represent a whole new way to do calculations, using quantum bits (or 鈥渜ubits鈥) that can be on and off at the same time. These qubits can run whole new kinds of algorithms, leveraging some of the unique phenomena that crop up in quantum mechanics. That quantum weirdness could help scientists solve some problems that are impossible to tackle with current computers.
However, that will only be possible when quantum computers get much larger than they are today. Qubits are difficult to control, and even the biggest quantum computers in the world have only a few hundred.
Researchers at 51精品视频 are building quantum computers too, working to both expand their size and experiment with new ways to piece them together so they can solve problems more efficiently and flexibly.