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cavity quantum optomechanics that combines strong light-matter coupling with strong exciton-phonon interactions in a single system. The tri-partite exciton-phonon-photon interactions within a single high-Q
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the changing geography of computational infrastructures and understanding how it is shaped by the interaction of technology companies’ business interests and states’ economic and security interests. The project
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that are based on electroluminescence, as well as to lay ground for new types of semiconductor based chemical energy converters. While presently based at the university and providing a cutting edge environment for
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a quantum system. We use mechanical oscillators loaded by milligram masses and bring two such gravitationally interacting oscillators into nonclassical motional states. The initial phase
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release on these projects can be found at the following link . This position’s focus is on developing engineered systems and methods to quantify the physical interactions between migrating cancer cells and