Rehman Fazal scite author profile

A Bose–Einstein condensate with a large atom number is an important experimental platform for quantum simulation and quantum information research. An optical dipole trap is the a conventional way to hold the ultracold atoms, where an atomic cloud is evaporatively cooled down before reaching the Bose–Einstein condensate. A carefully designed trap depth controlling curve is typically required to realize the optimal evaporation cooling. We present and demonstrate a simple way to optimize the evaporation cooling in a crossed optical dipole trap. A polyline shape optical power control profile is easily obtained with our method, by which a pure Bose–Einstein condensate with atom number 1.73 × 105 is produced. Theoretically, we numerically simulate the optimal evaporation cooling using the parameters of our apparatus based on a kinetic theory. Compared to the simulation results, our evaporation cooling shows a good performance. We believe that our simple method can be used to quickly realize evaporation cooling in optical dipole traps.

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State estimation of genetic regulatory networks under new dynamic event-triggered mechanism

Fazal

Tang

et al. 2022

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Rehman Fazal

Stability phase diagrams and tuning of magnetic skyrmionium and other states

Production of ⁸⁷Rb Bose–Einstein Condensate with a Simple Evaporative Cooling Method*

State estimation of genetic regulatory networks under new dynamic event-triggered mechanism

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Rehman Fazal

Stability phase diagrams and tuning of magnetic skyrmionium and other states

Production of 87Rb Bose–Einstein Condensate with a Simple Evaporative Cooling Method*

State estimation of genetic regulatory networks under new dynamic event-triggered mechanism

Contact Info

Product

Resources

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Production of ⁸⁷Rb Bose–Einstein Condensate with a Simple Evaporative Cooling Method*