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Quantum Information Science

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Understanding and Controlling Entangled & Correlated Quantum States in Confined Solid-State Systems Created via Atomic Scale Manipulation

(PI: Stephen Jesse)

Create, enhance, and stabilize entangled and correlated quantum states through direct control over dopant and vacancy position and material geometry to locally tune bandgaps, electronic wavefunctions, and phonon modes, and to provide the conditions under which topological effects emerge

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Nanoscale Quantum and Classical Sensing for Superconducting and Topological Quantum Information (PI: Ben Lawrie)

Reveal and control fundamental microscopic processes that drive qubits and quantum sensors based on topological and superconducting materials