Ohio State to open NeXUS Facility to users with funding from the US National Science Foundation

A team of chemistry and physics researchers at The Ohio State University have received a $12M award from the U.S. National Science Foundation (NSF) to support the operation, maintenance and expansion of the NSF National Extreme Ultrafast Science Facility (NSF NeXUS) for the next five years.

NSF NeXUS enables researchers to study chemical and material dynamics on the scale of atoms and electron motion utilizing a first-in-the-U.S., high-power ultrafast laser. NSF invested in the facility’s construction as part of its mid-scale facility initiative in 2019, and now the NSF Division of Chemistry and Ohio State are supporting researchers from around the world to take advantage of its variety of experimental capabilities.

“The mid-scale program at NSF has created a new paradigm for science in the United States that is highly collaborative,” said Robert Baker, Professor of Chemistry and Biochemistry and Director of NSF NeXUS. “We envision NSF NeXUS becoming a center point for interdisciplinary collaboration where we provide the light and the operational expertise, and researchers come from all over with their own scientific questions and utilize the unique capabilities available at NeXUS to pursue cutting-edge ultrafast science.”

NSF NeXUS provides researchers with access to a suite of technologies that they can use to study chemicals, biomolecules, photovoltaics, energy storage materials, quantum information materials, and the fundamental physics underlying these systems. Ohio State staff, ranging from research scientists and engineers to technicians and management, will support researchers to plan and execute their experiments using NSF NeXUS. With the support of these staff members, researchers from diverse fields can propose and complete experiments they would not be able to complete in their own laboratory.

NSF NeXUS builds on Ohio State’s long-standing strengths in advanced laser systems, spectroscopy, chemical dynamics and materials science with a newly renovated laboratory with high-precision climate control and a separated control room for safety.

“Most researchers have never had access to lasers and analysis stations like NSF NeXUS offers”, said NSF NeXUS Deputy Director Louis DiMauro, Dr. Edward E. and Sylvia Hagenlocker Chair and Professor of Physics. “We’re excited to welcome researchers from around the world and help them make breakthrough discoveries.”

NSF NeXUS hosts an annual user workshop on campus to share research results from its users and broaden interest in the facility. The group has established partnerships with Florida International University, Central State University, and Rose-Hulman Institute of Technology to work with their faculty and students to provide training in NSF NeXUS technologies and research. NSF NeXUS staff will also be engaging with students and the central Ohio community to promote understanding of and interest in chemistry, physics, materials science and laser technology.

The NSF’s Mid-scale Research Infrastructure program (Mid-scale RI-1) supports the implementation of research infrastructure whose total project costs fall between $4 million and $20 million. The Mid-scale Program seeks to broaden the representation of PIs and institutions in its award portfolio, emphasize strong scientific merit, and fulfill a national need to enable U.S. researchers to be competitive in a global research environment. 

To learn how to apply to become an NSF NeXUS user, visit nsf-nexus.osu.edu/users/become-a-user-2. For more information about NSF NeXUS, visit nsf-nexus.osu.edu. NSF Media Contact: NSF Public Affairs, media@nsf.gov, 703-292-7090 NSF NeXUS Media Contact: nsf_nexus@osu.edu 

Published by the College of Arts and Sciences September 10, 2024.