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W3046614962 abstract "Abstract We applied an optimal control algorithm to an ultra-cold atomic system for constructing an atomic Sagnac interferometer in a ring trap. We constructed a ring potential on an atom chip by using an RF-dressed potential. A field gradient along the radial direction in a ring trap known as the dimple-ring trap is generated by using an additional RF field. The position of the dimple is moved by changing the phase of the RF field [1]. For Sagnac interferometers, we suggest transferring Bose–Einstein condensates to a dimple-ring trap and shaking the dimple potential to excite atoms to the vibrational-excited state of the dimple-ring potential. The optimal control theory is used to find a way to shake the dimple-ring trap for an excitation. After excitation, atoms are released from the dimple-ring trap to a ring trap by adiabatically turning off the additional RF field, and this constructs a Sagnac interferometer when opposite momentum components are overlapped. We also describe the simulation to construct the interferometer." @default.
W3046614962 created "2020-08-07" @default.
W3046614962 creator A5057780182 @default.
W3046614962 creator A5084971536 @default.
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W3046614962 date "2020-07-28" @default.
W3046614962 modified "2023-10-18" @default.
W3046614962 title "Optimal control for generating excited state expansion in ring potential" @default.
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W3046614962 doi "https://doi.org/10.1515/phys-2020-0171" @default.
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