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Quantum Science and Quantum Materials

Dr. Thomas Bilitewski leads a theoretical AMO and condensed matter group research broadly interested in quantum many-body physics, non-equilibrium dynamics and quantum simulation. A main driving motivation of their work is to provide insightful explanations for experimental results and actionable realistic proposals for applications and exploration of fundamental physics. I much enjoy collaboration with experimental groups, and my work is often guided by recent novel experimental capabilities and attempts to open up practical new avenues for advancing quantum simulation, information and metrology in ultra-cold atomic and molecular setups.

Dr. Mario Borunda studies several problems in quantum information science and quantum computing. His group is interested in understanding the properties of Bose-Einstein condensates and ultra cold Fermi atomic systems. Particularly, spin transport in and the effects of inducing spin-orbit coupling in atomic systems.

Dr. Julius de Rojas's research group explores the rich, collective phenomena in coupled nanoscale magnetic materials and heterostructures. Their focus is on materials and composite structures useful for magnonics, magnetoelectrics, and high-anisotropy materials, with an eye towards applications in emerging technologies such as neuromorphic computing.

Dr. Mayukh Lahiri’s research focuses on quantum information science and quantum imaging. He is currently engaged in developing novel approaches to the generation, manipulation, and measurement of entangled quantum states. Other interests include the applications of these quantum states to various problems in quantum information science and quantum imaging.

Dr. Yingmei Liu leads an experimental AMO physics group, a part of a multidisciplinary program in Photonics at OSU. The main research interest is to investigate spin-squeezing with sodium Bose-Einstein Condensates near absolute zero temperature, and its immediate applications to quantum information science.

Dr. Derek Meyer's group specializes in realizing novel states of matter through atomic layer engineering. We focus on systems exhibiting intriguing phenomena such as superconductivity, colossal magnetoresistance, and topological phases.

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