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Paper detail

Quantum harmonic oscillator state synthesis by reservoir engineering

The robust generation of quantum states in the presence of decoherence is a primary challenge for explorations of quantum mechanics at larger scales. Using the mechanical motion of a single trapped ion, we utilize reservoir engineering to generate squeezed, coherent and displaced-squeezed states as steady states in the presence of noise. We verify the created state by generating two-state correlated spin-motion Rabi oscillations resulting in high contrast measurements. For both cooling and measurement, we use spin-oscillator couplings that provide transitions between oscillator states in an engineered Fock state basis. Our approach should facilitate studies of entanglement, quantum computation, and open-system quantum simulations in a wide range of physical systems.

preprint2015arXivOpen access
D. KienzlerH. -Y. LoB. KeitchL. de ClercqF. LeupoldF. LindenfelserM. MarinelliV. NegnevitskyJ. P. Home
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D. KienzlerH. -Y. LoB. KeitchL. de ClercqF. LeupoldF. LindenfelserM. MarinelliV. NegnevitskyJ. P. Home

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