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My research describes the connection between physical properties of modern quantum materials and the nature of quantum entanglement in the many-particle wavefunction. I have made contributions to the description of the diverse varieties of entangled states of quantum matter. These include states with topological order, with and without an energy gap to excitations, and critical states without quasiparticle excitations. Many of these contributions have been linked to experiments, especially to the rich phase diagrams of the high temperature superconductors. Extreme examples of complex quantum entanglement arise in metallic states of matter without quasiparticle excitations, often called strange metals. Remarkably, there is an intimate connection between the quantum physics of strange metals found in modern materials (which can be studied in tabletop experiments), and quantum entanglement near black holes of astrophysics. I have exploited this connection to advance our understanding of experiments on strange metals
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Proceedings of the National Academy of Sciences of the United States of Americano. 14 (2024): e2402052121-e2402052121
npj Quantum Materialsno. 1 (2024): 1-10
arxiv(2024)
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arXiv (Cornell University) (2023)
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PHYSICAL REVIEW LETTERSno. 3 (2023)
Physical review lettersno. 14 (2023): 141601-141601
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