“The QIS research centers will assure that advances in fundamental research in quantum science will progress to practical applications to benefit national security and many other segments of society,” says MIT Vice President for Research Maria Zuber. Chuang is a pioneer in the field of quantum information science. Devices based on the mysterious phenomena of quantum physics have begun to reshape the technology landscape. Isaac Chuang is a professor of physics and electrical engineering at MIT and the senior associate dean for the Office of Digital Learning. The latest of nine joint research agreements in this field of study was announced in September 2020 … Highlights of PHI Lab day in NTT Research Summit … We also look for ways to combine atomic physics and engineering to push the abilities of these computers. Biographical Sketch Prof. Chuang is a pioneer in the field of quantum information science. NTT Research held the Upgrade 2020 the NTT Research global summit from September 28 to October 1. In addition to selecting these two MIT-affiliated centers, the Department of Energy announced funding for three additional QIS research centers. Sage, and J. Chiaverini. Isaac L. Chuang leads the quanta research group at the Center for Ultracold Atoms at Massachusetts Institute of Technology (MIT). He received his undergraduate degrees in physics (1990) and electrical engineering (1991) and master's in electrical engineering (1991) at MIT. The long-term goal is to develop a “universal” quantum computer, the kind that can perform computational tasks that would be practically impossible for traditional supercomputers to solve. MIT News | Massachusetts Institute of Technology, MIT partners with national labs on two new National Quantum Information Science Research Centers. These investments, according to the department, represent a long-term, large-scale commitment of U.S. scientific and technological resources to a highly competitive and promising new area of investigation, with enormous potential to transform science and technology. “Much of the theoretical and algorithmic foundation for quantum information science, as well as early experimental implementations, were developed at MIT. These awards would support the National Quantum Initiative Act, passed in 2018 to accelerate the development of quantum science and information technology applications. “We look forward to further strengthening our research collaboration with Lawrence Berkeley National Laboratory, Sandia National Laboratories, and the partner universities to create many advances in quantum information science through the Quantum Systems Accelerator,” says Lincoln Laboratory Director Eric Evans. The other center, the Quantum Systems Accelerator (QSA), will be led by Lawrence Berkeley National Laboratory. In recent years, researchers have been pursuing advanced quantum systems, like those that could lead to tamper-proof communications systems and computers that could tackle problems today's machines would need billions of years to solve. His experimental realization of two, three, five, and seven quantum bit quantum computers using nuclear spins in molecules provided the first laboratory demonstrations of many important quantum algorithms, including Shor's quantum factoring algorithm. This website is managed by the MIT News Office, part of the MIT Office of Communications. Bruzewicz, J.A. (2016). group at the Center for Ultracold Atoms, in the MIT Research Laboratory of Electronics. The PHI Lab day, Sept. 29, featured talks from several of our academic partners. Massachusetts Institute of Technology77 Massachusetts Avenue, Cambridge, MA, USA. Michael F. O’Keeffe, Lior Horesh, John F. Barry, Danielle A. Braje, and Isaac L. Chuang. He received his undergraduate degrees in physics (1990) and electrical engineering (1991) and master's in electrical engineering (1991) at MIT. Under the guidance of Prof. Isaac Chuang, we work to improve trapped-ion quantum computers, applying theory from quantum signal processing to error correction to machine learning. MIT is among nine universities selected as part of a program sponsored by the DoE to support science-based modeling and simulation and exascale computing technologies. Professor William Oliver, a Lincoln Laboratory fellow and director of the Center for Quantum Engineering, and Eric Dauler, who leads the Quantum Information and Integrated Nanosystems Group at Lincoln Laboratory, will coordinate MIT research activities with this center. “Quantum information science and engineering research is a core strength at MIT, ranging broadly from algorithms and molecular chemistry to atomic and superconducting qubits, as well as quantum gravity and the foundations of computer science. The QIS research centers build on this experience and the broader landscape. What's SSUP? MIT's cutting-edge facilities will bolster these collaborations. In 1997 he received his PhD in electrical engineering from Stanford University. Early this year, the U.S. Department of Energy sent out a call for proposals as it announced it would award up to $625 million in funding over the next five years to establish multidisciplinary National Quantum Information Science (QIS) Research Centers. MIT participation in this center will be coordinated by Professor Isaac Chuang through the Center for Theoretical Physics. As noted, the PHI Lab has 25 external collaborators. Now, MIT is a partner institute on two QIS Research Centers that the Department of Energy has selected for funding. “The pace of discovery in this field is rapid, and the combined strengths of campus and Lincoln Laboratory are very well-aligned to lead in this area.”. Tiny microRNAs help destroy unwanted messenger RNAs in cells.

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