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UMD Leads New $25M NSF Quantum Leap Challenge Institute for Robust Quantum Simulation

New institute will significantly add to the vibrant quantum research ecosystem established in the mid-Atlantic region.

CONTACTS:

Abby Robinson , 301-405-5845 abbyr@umd.edu

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The University of Maryland has been tapped to lead a multi-institutional effort supported by the National Science Foundation (NSF) that is focused on developing quantum simulation devices that can understand, and thereby exploit, the rich behavior of complex quantum systems.

The NSF Quantum Leap Challenge Institute for Robust Quantum Simulation announced on September 2, 2021, brings together computer scientists, engineers and physicists from five academic institutions and the federal government. Funded by a $25 million award from NSF, researchers in the UMD-led institute will develop theoretical concepts, design innovative hardware, and provide education and training for a suite of novel simulation devices that can predict and understand quantum phenomena.

“Maintaining and growing our global leadership in quantum science and technology is important for the state of Maryland and a top strategic priority for its flagship campus, the University of Maryland,” said UMD President Darryll J. Pines. “The Quantum Leap Challenge Institute for Robust Quantum Simulation positions us to tackle grand challenges in quantum information science and quantum computing, and it further elevates our region as the Capital of Quantum.”

Quantum simulation is a fundamental step toward realizing a world where general-purpose quantum computers can transform medicine, break encryption and revolutionize communications. Even the most powerful of today’s “classical” computers struggle to represent even relatively small quantum systems, an obstacle that could be overcome by building next-generation quantum simulators.

Andrew Childs, a UMD professor of computer science and co-director of the Joint Center for Quantum Information and Computer Science (QuICS), is the lead principal investigator of the NSF award and will serve as director of the new institute.

“Quantum simulation is arguably the most compelling application of quantum computers,” Childs said. “Through dedicated research, education and outreach, we will nurture the quantum simulation community and provide a sharp focus on new discoveries and applications involving quantum simulation.”

In addition to faculty, postdocs and students from UMD, the NSF Quantum Leap Challenge Institute for Robust Quantum Simulation will include quantum experts from Duke University, Princeton University, North Carolina State University and Yale University, as well as researchers from the National Institute of Standards and Technology (NIST). Nine of these federal scientists are already embedded on the UMD campus, working in the Joint Quantum Institute, launched in 2006, and in QuICS, launched in 2015.

In addition to Childs, leadership roles in the NSF Quantum Leap Challenge Institute for Robust Quantum Simulation will be filled by Ian Spielman from NIST (associate director for research), Mohammad Hafezi from UMD (associate director for education), Gretchen Campbell from NIST (associate director for diversity and inclusion), as well as co-principal investigators Kenneth Brown and Christopher Monroe (Duke), Alicia Kollár (UMD) and Jeff Thompson (Princeton).

“Our strength in quantum science research and our connections with academic and government collaborators give us a solid foundation on which to build this newest quantum endeavor,” said Amitabh Varshney, dean of UMD’s College of Computer, Mathematical, and Natural Sciences, where the new institute will be administratively housed. “The NSF Quantum Leap Challenge Institute for Robust Quantum Simulation represents scientific discovery and impact at its best—taking on the most difficult of challenges and using the knowledge gained to transition to a quantum-based economy that can improve people’s lives significantly.”

The researchers believe that by evaluating the best approaches to small-scale quantum simulation, they can provide a detailed blueprint for what could be early practical applications for quantum computers. They have identified three major scientific challenges to focus their efforts on: methods for verifying the correctness of simulations, the interaction of simulators with their environments, and the development of scalable quantum simulators for science and technology applications.

To do this, the researchers plan to explore the theoretical foundations of quantum algorithms and error correction—in conjunction with experimental implementations of reconfigurable quantum simulators—on four leading hardware platforms: trapped ions, arrays of Rydberg atoms, quantum photonics with solid-state defects and superconducting circuits.

They envision tight collaboration between theoretical and experimental approaches to co-design near-term simulation protocols with current and next-generation devices. This includes the joint development of optical and microwave control techniques across different experimental platforms, allowing for rapid advances in system size and controllability.

The ongoing mission of the NSF Quantum Leap Challenge Institute for Robust Quantum Simulation will also include a strong educational component. Plans call for a new flagship conference on quantum simulation and other outreach and education programs that engage diverse groups of students in quantum science, including partnerships with Morgan State University and North Carolina Central University.

Faculty in the new institute also plan to introduce cross-disciplinary undergraduate specializations in quantum information and provide quantum information training for postgraduates and professionals.

Today’s announcement is the latest in a series of federal grants establishing a cohort of Quantum Leap Challenge Institutes nationwide. Three Quantum Leap Challenge Institutes launched last year, with the Quantum Leap Challenge Institute for Robust Quantum Simulation and the Quantum Leap Challenge Institute for Quantum Sensing in Biophysics and Bioengineering—led by the University of Chicago—being funded in 2021.

With science currently undergoing a quantum revolution, NSF is leading the charge through large-scale investments into centers that further the understanding of basic quantum phenomena, fundamental discoveries that will translate into transformative technologies.

“Our Quantum Leap Challenge Institutes program is developing the foundation of quantum information sciences, as well as developing the future students, faculty, startups and industry partners who are engaged in it,” said Sean L. Jones, NSF assistant director of mathematical and physical sciences. “These two new institutes are tapping into challenging fields that have the potential to develop the next generation of tools that will establish the United States at the forefront of quantum innovation.”

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This research is supported by the National Science Foundation (Award No. OMA-2120757). This story does not necessarily reflect the views of this organization.

Media Contacts: (UMD) Abby Robinson, abbyr@umd.edu; (NSF) 703.292.7090, media@nsf.gov

About the National Science Foundation

The NSF propels the nation forward by advancing fundamental research in all fields of science and engineering. NSF supports research and people by providing facilities, instruments and funding to support their ingenuity and sustain the U.S. as a global leader in research and innovation. With a fiscal year 2021 budget of $8.5 billion, NSF funds reach all 50 states through grants to nearly 2,000 colleges, universities and institutions. Each year, NSF receives more than 40,000 competitive proposals and makes about 11,000 new awards. Those awards include support for cooperative research with industry, Arctic and Antarctic research and operations, and U.S. participation in international scientific efforts.

About the University of Maryland

The University of Maryland (UMD) is the state's flagship university and a leading public research institution, propelled by a $1.3 billion joint research enterprise. Located four miles from Washington, D.C., the university is dedicated to addressing the grand challenges of our time and is the nation's first Do Good campus. It is driven by a diverse and proudly inclusive community of more than 50,000 fearless Terrapins. UMD is a top producer of Fulbright scholars and offers an unparalleled student experience with more than 300 academic programs, 25 living-learning programs and 400 study abroad programs. Spurred by a culture of innovation and creativity, UMD faculty are global leaders in their field and include Nobel laureates, Pulitzer Prize winners and members of the national academies. For more information about the University of Maryland, visit umd.edu.

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Quantum Science Innovation Research

Colleges and Schools:

College of Computer, Mathematical, and Natural Sciences

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