Jong‐Min Choi scite author profile

We control the quantum mechanical motion of neutral atoms in an optical lattice by driving microwave transitions between spin states whose trapping potentials are spatially offset. Control of this offset with nanometer precision allows for adjustment of the coupling strength between different motional states, analogous to an adjustable effective Lamb-Dicke factor. This is used both for efficient one-dimensional sideband cooling of individual atoms to a vibrational ground state population of 97% and to drive coherent Rabi oscillation between arbitrary pairs of vibrational states. We further show that microwaves can drive well resolved transitions between motional states in maximally offset, shallow lattices, and thus in principle allow for coherent control of long-range quantum transport.

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The effects of improper refrigerant charge on the performance of a heat pump with an electronic expansion valve and capillary tube

Choi

Kim

2002

Energy

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Influence of the expansion device on the performance of a heat pump using R407C under a range of charging conditions

Choi

Kim

2004

International Journal of Refrigeration

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A generalized correlation for refrigerant mass flow rate through adiabatic capillary tubes

Choi

Kim

2003

International Journal of Refrigeration

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Elimination of inhomogeneous broadening for a ground-state hyperfine transition in an optical trap

Choi

Cho

2007

J. Phys.: Conf. Ser.

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Jong‐Min Choi

Microwave Control of Atomic Motion in Optical Lattices

The effects of improper refrigerant charge on the performance of a heat pump with an electronic expansion valve and capillary tube

Influence of the expansion device on the performance of a heat pump using R407C under a range of charging conditions

A generalized correlation for refrigerant mass flow rate through adiabatic capillary tubes

Elimination of inhomogeneous broadening for a ground-state hyperfine transition in an optical trap

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