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Zohreh Davoudi

Associate Director for Education

University of Maryland

RQS Executive CouncilRQS Senior Investigator
Profile photo of Zohreh Davoudi

Contact Information

davoudi@umd.edu

Additional Information

Bio

Zohreh Davoudi is an associate professor in the Department of Physics and a Fellow of the Joint Center for Quantum Information and Computer Science (QuICS) at the University of Maryland. She studies strongly interacting systems, such as hadrons and nuclei, using analytical and computational methods including effective field theories, lattice quantum chromodynamics, quantum simulation and quantum computing. Davoudi received her doctorate in physics from the University of Washington in 2014.

Recent Publications

Research Group

Affiliated Research Centers

Recent News

  • Visual of the Quantum research described in the article

    A New Take on the Oldest Physics: What Actually Happened Right After the Big Bang?

    April 7, 2025

    Zohreh Davoudi, Nicole Yunger Halpern, and Chris Jarzynski are collaborating to blend three disparate fields of physics—the study of elementary particles and their interactions, the understanding of temperature and heat in quantum mechanics, and quantum simulation—to create a novel approach to understanding and modeling the physics of the early universe and high-energy collisions.

  • A photo of Zohreh Davoudi.

    Davoudi Receives Prestigious PECASE Award

    January 21, 2025

    The award is the highest honor bestowed by the U.S. government on up-and-coming researchers.

  • Glowing spheres emerge from a bright collision with a spring like coil between them. The background features basic line diagrams of electrical circuits featuring coils, exes and other symbols.

    Particle Physics and Quantum Simulation Collide in New Proposal

    July 8, 2024

    In a recent paper, RQS researchers Zohreh Davoudi and Alexey Gorshkov collaborated with others to present a novel simulation method, discussing what insights the simulations might provide about the creation of particles during energetic collisions.