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Kennesaw State University researcher Mahmoud Asmar has received a three-year grant worth $799,800 from the U.S. Department of Energy to lead cutting-edge research on light-matter interactions. His work aims to deepen our understanding of how to generate and stabilize topological out-of-equilibrium quantum states.

Topological states of matter are quantum phases that remain stable even in the presence of non-ideal conditions such as material disorder. They arise in complex materials and can also be created using tailored light. These states enable unique electrical and magnetic properties, with promising applications in quantum computing, advanced communications, and medical imaging.

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Asmar’s research advances the discovery of novel out-of-equilibrium quantum states by harnessing periodic modulations in quantum materials. Moving beyond uniform light exposure, his work explores the largely uncharted realm of light interacting with inhomogeneous materials to access previously unreachable quantum phases.

By accounting for temperature effects and electron collisions, the project will deliver accurate, experimentally relevant predictions for controlling matter with structured fields. These insights will impact light-irradiated systems, strain engineering and open-system dynamics, offering a roadmap for experiments and future breakthroughs in quantum materials.

“This grant significantly expands research opportunities for KSU students,” said Asmar, assistant professor of physics. “They’ll be directly involved in the rapidly evolving field of theoretical condensed matter physics, positioning KSU at the forefront of innovation in quantum science and technology.”

With support from the grant, Asmar’s research will combine rigorous mathematical modeling and advanced simulations to uncover how light alters the properties of quantum materials. As a theoretical physicist, he predicts material behavior under complex light exposure, providing a powerful framework to guide experiments and enable precise control of quantum systems.

Asmar earned a grant from the National Science Foundation in 2022 to study interactions between light and matter while introducing undergraduates and community members to this area of condensed matter physics.

“My NSF grant led to key breakthroughs, including proof that vortex-like states can be generated in matter through light,” Asmar said. “Those results were instrumental in securing this Department of Energy grant. The work we’re undertaking now will lay the foundation for the research we will carry forward here at KSU.”

Asmar collaborates with Nancy Sandler, a professor of physics at Ohio University, where Asmar received his doctorate in 2015. The grant will help continue that collaboration, funding a graduate student there as well as a summer internship for undergraduate and graduate researchers. The grant will also fund a postdoctoral scholar as well as two undergraduate researchers at KSU.

In a banner year for KSU’s Department of Physics, Asmar’s recent Department of Energy grant adds to a series of major faculty achievements. In August 2024, professors Marco Guzzi and Nikolaos Kidonakis secured a $360,000 NSF grant for their work in theoretical particle physics at CERN. Earlier this year, associate professor Chetan Dhital and assistant professor of chemistry Madalynn Marshall received a $799,934 DOE grant to study magnetic materials and emerging technologies.

Physics students also made significant strides. Junior Casey Hampson conducted NSF-funded summer research at CERN, and junior Emily Manqueros earned top honors at the Birla Carbon Scholars Symposium, the first physics student to do so in the event’s 11-year history. Siam Sarower—a junior physics major and mentee of Asmar—earned two of the highest national honors for undergraduate scientists. In March, he became the first KSU physics student to receive the Barry Goldwater Scholarship, the most prestigious undergraduate award in STEM, for his research on space-time modulation in graphene. In May, he was named a student ambassador of the American Physical Society, reflecting both KSU’s outstanding research and growing leadership in the national physics community.

“The grant that Dr. Asmar has secured from the Department of Energy is yet another feather in the cap of the stellar recent performance of CSM’s Physics Department,” said Heather Koopman, dean of KSU’s College of Science and Mathematics. “We have world-class researchers, along with incredible undergraduate students doing research and winning awards – it’s the perfect combination that is exactly in tune with CSM’s aim of achieving national prominence in Undergraduate Research.”

The grant was one of 40 awarded nationally by the Department of Energy, totaling $31 million.

Media Contact

Darius Goodman

Kennesaw State University

dgoodm15@kennesaw.edu

Office: 470-578-6203

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DOE/US Department of Energy

Keywords
/Physical sciences/Physics/Condensed matter physics/Light matter interactions

/Physical sciences/Physics/Mechanics/Quantum mechanics

/Physical sciences/Physics/Quantum mechanics/Quantum matter

/Physical sciences/Physics/Condensed matter physics/Phase transitions/Quantum phase transitions

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Keywords
Tags: advanced materials in physicsapplications of topological statescutting-edge quantum researchDepartment of Energy grant for physics researchelectrical and magnetic properties of materialsKennesaw State University researchlight-matter interactions researchMahmoud Asmar physics professorout-of-equilibrium quantum statesquantum phases of matterstabilization of quantum statestopological states of matter