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For nearly six decades, Cornell’s Laboratory of Plasma Studies has remained at the forefront of plasma science – a tradition its incoming director, Gennady Shvets, professor of applied and engineering physics, plans to continue while also broadening the lab’s research capabilities.
The discovery made by two doctoral students could have future implications for human health, setting a path for research into understanding brain function.
Researchers at CHESS examine proteins that reveal new ways to fight cancer, battery cells that enable a charge far beyond current capabilities and structural materials that enable space travel to improve with lightweight, yet more structurally sound components.
Abhi Sarma, an undergraduate research student in professor Peter McMahon's lab who is doing quantum-computing-algorithms research, just recently won a Goldwater Scholarship.
Cornell engineers have created a deep-ultraviolet laser using semiconductor materials that show great promise for improving the use of ultraviolet light for sterilizing medical tools, purifying water and sensing hazardous gases.
A $10 million gift from David W. Meehl ’72, MBA ’74, will grow the roster of faculty, students and equipment needed to study the mysterious behavior of matter at atomic and subatomic scales, strengthening the university’s position as a leader in quantum science and technology.
Assistant professors Pamela Chang, Antonio Fernandez-Ruiz, Daniel Halpern-Leistner and Peter McMahon have won 2022 Sloan Research Fellowships from the Alfred P. Sloan Foundation.
Three assistant professors from Cornell Engineering have been selected from more than 220 applicants to receive Office of Naval Research Young Investigator Program awards, which recognizes academic achievement and potential for significant scientific breakthrough.
Researchers from Cornell’s School of Applied and Engineering Physics and Samsung’s Advanced Institute of Technology have created a first-of-its-kind metalens – a metamaterial lens – that can be focused using voltage instead of mechanically moving its components.
In 2018, Cornell researchers built a high-powered detector that, in combination with an algorithm-driven process called ptychography, set a world record by tripling the resolution of a state-of-the-art electron microscope.
