Numerical Study of Evaporative Cooling in the Space Station

Numerical Study of Evaporative Cooling in the Space Station

In this paper, we numerically studied the effects of mechanical vibration and magnetic fields on evaporative cooling process carried in space station by direct simulation Monte Carlo method. Simulated with the vibration data of international space station, we found that the cooling process would suf...

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Veröffentlicht in:arXiv.org 2019-09
Hauptverfasser: Fan, Bo, Zhao, Luheng, Zhang, Yin, Sun, Jingxin, Xiong, Wei, Chen, Jinqiang, Chen, Xuzong
Format: Artikel
Sprache:eng
Schlagworte:
Computer simulation
Cooling
Direct simulation Monte Carlo method
Evaporation
Evaporative cooling
International Space Station
Magnetic fields
Resonance scattering
Space stations
Vibration
Wave scattering
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Zusammenfassung:In this paper, we numerically studied the effects of mechanical vibration and magnetic fields on evaporative cooling process carried in space station by direct simulation Monte Carlo method. Simulated with the vibration data of international space station, we found that the cooling process would suffer great atomic losses until the accelerations reduced tenfold at least. In addition, if we enlarge the s-wave scattering length five times by Feshbach resonance, the PSD increased to 50 compared to 3 of no magnetic fields situation after 5 seconds evaporative cooling. We also simulated the two stages crossed beam evaporative cooling process (TSCBC) under both physical impacts and obtain \(4\times10^5\) \(^{85}\)Rb atoms with a temperature of 8 pK. These results are of significance to the cold atom experiments carried out on space station in the future.
ISSN:2331-8422