Chicago Quantum Exchange, IBM Q Network partner to advance quantum computing

The Chicago Quantum Exchange, a growing intellectual hub for the research and development of quantum technology, will join forces with the IBM Q Network to provide leaps forward in electronics, computers, sensors and "unhackable" networks.

CQE member institutions will work with IBM Q scientists and engineers through IBM Q’s academic partner program to explore the field of quantum computing, including investigations into materials, fabrication techniques, algorithms, and software and hardware development. A critical component of the partnership will be to enhance efforts to train tomorrow’s quantum workforce; the IBM Q Network will fund up to five positions for postdoctoral researchers to work closely with scientists across the CQE to advance quantum computing.

The Chicago Quantum Exchange is anchored at the University of Chicago. Member institutions include the U.S. Department of Energy’s Argonne National Laboratory and Fermi National Accelerator Laboratory , the University of Illinois at Urbana-Champaign, and the University of Wisconsin-Madison. The combined resources of the member institutions create a powerful hub of more than 100 scientists and engineers-among the world’s largest collaborative teams for quantum research.

CQE researchers are developing hardware and software for a new generation of quantum computers, synthesizing and characterizing new materials with quantum properties, and probing the ways in which quantum computing and information processing can provide insights into dark matter and black holes.

"Collaborating with IBM’s scientists and engineers will accelerate progress in the field of quantum information," said David Awschalom, director of the CQE, the Liew Family Professor of Molecular Engineering at UChicago and a senior scientist at Argonne. "This rapidly developing field requires working across different academic disciplines and developing projects beyond institutional boundaries. Partnering with IBM Q will help us drive a broad range of joint activities and help train a new workforce of quantum scientists and engineers."

The collaboration with IBM Q includes projects with Awschalom and other UChicago researchers to develop quantum machine architectures and applications, ranging from quantum communication interfaces to new types of qubits-the basic unit of quantum information. Prof. Fred Chong and his UChicago research team will deepen their existing collaboration with IBM Q to develop quantum software. Chong, the Seymour Goodman Professor of Computer Science and an Argonne senior scientist, is the lead investigator for the Enabling Practical-Scale Quantum Computing (EPiQC) project, a multi-institutional effort funded by the National Science Foundation’s Expeditions in Computing Program, which works to bring quantum computing within reach by co-developing new algorithms, software, and hardware, including optimizations for IBM’s superconducting quantum technology.

The partnership builds on existing collaborations between CQE member institutions and IBM Q, the company’s quantum division. This includes the participation of Argonne and Fermilab in the IBM Q Network, the world’s first community of Fortune 500 companies, startups, academic institutions and research labs working with IBM to advance quantum computing and explore practical applications for business and science. The two labs partner with the IBM Q Hub at Oak Ridge National Laboratory.  

Building the nation’s future quantum workforce

In addition to accelerating discovery and innovation in the rapidly developing areas of quantum technology, the CQE aims to build the nation’s workforce in emerging quantum fields.

"The CQE institutions, including the University of Illinois at Urbana-Champaign, have identified quantum information science as a key strategic area, and we are committed to providing research and education opportunities for our students and postdocs to train them to contribute to this exciting and important field. This partnership and investment from IBM Q will help us in that mission," said Dale Van Harlingen, professor of physics and the associate executive director of the Illinois Quantum Information Science and Technology center at the University of Illinois at Urbana-Champaign.

Through the CQE, IBM Q will provide funding for up to five postdoctoral positions over five years to investigate some of the most profound scientific and technological challenges in quantum information science. These postdoctoral researchers will research quantum computing, quantum communication, quantum sensing and quantum algorithms.

"As the field of quantum information continues to expand, so will the demand for quantum engineers in industry, government and at universities," said President Robert J. Zimmer. "Increasing our collaboration with IBM Q and other partners in the Chicago Quantum Exchange will allow our trainees, faculty and their colleagues to contribute to important work in applied science and engineering with strong potential to benefit society."

The postdocs will have access to all member institutions, including a wide breadth of tools and capabilities that make investigation of cutting-edge quantum science and technology possible.

The postdocs will work at member institutions that support their individual areas of research and will receive dual mentorship at both the institution where they are placed and another member institution or IBM Q. Individuals interested in applying for a postdoc position at the CQE can access the application on the CQE website.

The CQE is further developing a national workforce of quantum scientists and engineers through the Quantum Information Science and Engineering Network (QISE-Net), a program supported by the National Science Foundation and in partnership with Harvard University. QISE-Net enables students to conduct their doctoral research jointly with industry or a national laboratory, translating ideas into research results.

Chicago Quantum Exchange , Argonne National Laboratory , Fermi National Accelerator Laboratory , David D. Awschalom , Robert J. Zimmer , Paul Kearns , Institute for Molecular Engineering , Quantum

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