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Date: Mon, 18 Feb 2019 14:10:51 GMT
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Title: Q-FARM initiative bolsters quantum research at Stanford-SLAC
Description: The newly launched initiative will build upon existing strengths in theoretical and experimental quantum science and engineering at Stanford and SLAC.
Texto: Q-FARM initiative bolsters quantum research at Stanford-SLAC Skip to content News Menu Search form Search term Home Find Stories For Journalists Contact February 8, 2019 Q-FARM initiative to bolster quantum research at Stanford-SLAC The newly launched Quantum Fundamentals, ARchitecture and Machines initiative will build upon existing strengths in theoretical and experimental quantum science and engineering at Stanford and SLAC National Accelerator Laboratory. Facebook Twitter Email By Ker Than There’s a new farm on the Farm. Stanford and SLAC National Accelerator Laboratory have launched a new Q uantum F undamentals, AR chitecture and M achines (Q-FARM) initiative to leverage and expand the university’s strengths in quantum science and engineering and to train the field’s next generation of scientists. Learn more about Stanford’s long-range vision initiatives. Visit the ‘Our Vision’ website “Our mission is not only to do research, it’s also to educate students, bring the community together, fill the gaps that we have in this space and connect to the world outside, both to industry and to other academic institutions,” said Q-FARM director Jelena Vuckovic , a professor of electrical engineering. Q-FARM emerged from Stanford’s long-range planning process as part of a team focused on understanding the natural world. The idea for it originated from faculty across departments who recognized that the university is uniquely positioned to become a leader in the field of quantum research, said Q-FARM deputy director Patrick Hayden , a professor of physics in the School of Humanities and Sciences. “I think it is very possible for Stanford to establish itself as the leading center in quantum science and engineering,” Hayden said. “We have advantages that other schools do not, including top-ranked science and engineering departments that are a short distance away from technology companies and SLAC, a renowned laboratory of the U.S. Department of Energy.” A second wave First formulated in the early 20th century, quantum mechanics deals with nature at its smallest scales. The theory describes with remarkable precision everything from the interactions between fundamental particles to the nature of chemical bonds and the electrical properties of materials. It even explains the origins of galaxies as tiny quantum ripples in spacetime that were stretched to enormous sizes during the first moments of the universe . Quantum mechanics is also the basis for some of our most transformative and ubiquitous technologies, including transistors and lasers. Patrick Hayden and Jelena Vuckovic will direct Stanford’s new Q-FARM initiative centered around experimental and theoretical quantum science and engineering. (Image credit: L.A. Cicero) As influential as the theory has been, it’s poised to be even more impactful in the future. Beginning in the 1990s, quantum mechanics entered a “second wave” of discovery and innovation driven by theoretical and technological advances. On the theoretical front, quantum mechanics merged with computer science, mathematics and other branches of physics to give rise to a new field known as quantum information science (QIS). QIS aims to harness the spookier properties of quantum mechanics – superposition, wave-particle duality, entanglement – to manipulate information. Surprisingly, insights and techniques from QIS are proving useful not only for the design of quantum computers, algorithms and sensors but also for providing powerful new tools for investigating old questions in physics. “I finally feel, after all these years, that I’m at a stage in my life where things are as interesting as the things I missed because I came into physics too late,” said Leonard Susskind , a theoretical physicist at the Stanford Institute for Theoretical Physics . Susskind and Hayden are using quantum information to model black hole interiors and probe the nature of spacetime. As QIS has matured, so too has the ability of engineers to fabricate quantum-mechanical systems. Phenomena such as quantum teleportation that were once purely theoretical can now be created and studied in the lab. “This is what’s supposed to happen in science, that there is this feedback loop between theory and experiment, but it’s not always true,” Hayden said. “This is an area where it’s really happening and that’s very exciting.” A strong foundation Q-FARM will build upon Stanford and SLAC’s strong foundation in quantum science and engineering. The institutions include experts in the field, including Nobel laureate Robert Laughlin , and have played leading roles in a broad range of quantum research, including the discovery and characterization of new quantum materials, the use of quantum sensors to search for dark matter and exploration of the interface between QIS and fundamental physics. Furthermore, SLAC, as a multi-purpose DOE laboratory, brings unique facilities and expertise for QIS research that will complement Q-FARM on many fronts. Stanford and SLAC are also located in the heart of Silicon Valley, home to established companies like Google and to a long list of recent startups that are engaged in R&D efforts in quantum technologies. “Stanford has a history of strong interaction with Silicon Valley,” Hayden said. “All the big technology companies are investing in quantum computing. They are looking for the next major breakthrough in terms of computing power or communication power. Quantum mechanics seems to offer that.” Priorities With many world-leading research groups already established at Stanford, Q-FARM’s role will be to build bridges between them and create a community that can tackle the major emerging challenges in the area. Among Q-FARM’s initial priorities are the creation of postdoctoral and graduate fellowships and organizing research seminars where faculty, students and visiting scholars can present their research. Q-FARM will also focus on developing an educational program for undergraduate and graduate students to bolster the current curriculum. “We already have an excellent collection of classes, but we want to coordinate the program between physics and engineering so that we can better educate our students,” Vuckovic said. Demonstrating a united front on the research end will also help with faculty and student recruitment in an increasingly competitive field and attract some of the significant government funding that will target quantum research. In 2018, the U.S. Senate unanimously passed the National Quantum Initiative, which authorizes $1.275 billion to be spent over the next five years to fund American quantum information science research and to create multiple centers dedicated to quantum research and education. “Bringing one of those centers to Stanford and SLAC will help us maintain the strengths we already possess and establish ourselves more broadly in this field,” Vuckovic said. “If we can sustain this pace, Stanford will be the place where people who work in this field will want to be,” she added. “We have leading physics and leading engineering. We are in Silicon Valley. This is what makes us the right place to carry this forward.” Vuckovic is also a professor, by courtesy, of applied physics and a member of the Ginzton Lab , PULSE , SIMES , SPRC , SystemX and Stanford Bio-X . To read all stories about Stanford science, subscribe to the biweekly Stanford Science Digest . Media Contacts Ker Than, School of Humanities and Sciences: (650) 723-9820, Science & Technology Physics Facebook Twitter Email What to read next: Obituaries Plant biologist Winslow Briggs dies at 90 A global leader in plant genetics and physiology, Briggs published landmark research on the molecular mechanisms that plants and other organisms use to sense and respond to light. Law & Policy What rising seas mean for local economies High-tide flooding resulting from climate change is already disrupting the economy of Annapolis, Maryland. As sea levels rise, the impacts are expected to get worse for coastal communities. University Affairs Trustees focus on Stanford’s external engagement At its meetings this week, the Board of Trustees also heard about current projects in the arts, took action on building projects and heard from the new leader of Lucile Packard Children’s Hospital. Stanford Report Receive daily Stanford news. More about Stanford Report For Journalists Press Releases Media Contacts Stanford Experts See Also Contact Stanford News Faculty / Staff Resources Weather 36° Stanford forecast Events Events calendar Stanford News is a publication of Stanford University Communications Stanford Home Maps & Directions Search Stanford Emergency Info Terms of Use Privacy Copyright Trademarks Non-Discrimination Accessibility © Stanford University , Stanford , California 94305 .

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