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Accurate measurement of the loss rate of cold atoms due to background gas collisions for the quantum-based cold atom vacuum standard

Published

Author(s)

Daniel Barker, James A. Fedchak, Jacek Klos, Julia Scherschligt, Abrar Sheikh, Eite Tiesinga, Stephen Eckel

Abstract

We present measurements of thermalized collisional rate coefficients for ultra-cold $^7$Li and $^87}$Rb colliding with room-temperature He, Ne, N$_2$, Ar, Kr, and Xe. In our experiments, a combined flowmeter and dynamic expansion system, a vacuum metrology standard, is used to set a known number density for the room-temperature background gas in the vicinity of the magnetically trapped $^7$Li or $^87}$Rb clouds. Each collision with a background atom or molecule removes a $^7$Li or $^87}$Rb atom from its trap and the change in the atom loss rate with background gas density is used to determine the thermalized loss rate coefficients with fractional standard uncertainties better than 1.6\% for $^7$Li and 2.7\% for $^87}$Rb. We find consistency---a degree of equivalence of less than one---between the measurements and recent quantum-scattering calculations of the loss rate coefficients [J. K\l}os and E. Tiesinga, \it J. Chem. Phys.} \bf 158}, 014308 (2023)], with the exception of the loss rate coefficient for both $^7$Li and $^87}$Rb colliding with Ar. Nevertheless, the agreement between theory and experiment for all other studied systems provides validation that a quantum-based measurement of vacuum pressure using cold atoms also serves as a primary standard for vacuum pressure, which we refer to as the cold-atom vacuum standard.
Citation
AVS Quantum Science
Volume
5
Issue
3

Keywords

cold atoms, vacuum metrology, pressure measurement, primary gauge, standard

Citation

Barker, D. , Fedchak, J. , Klos, J. , Scherschligt, J. , Sheikh, A. , Tiesinga, E. and Eckel, S. (2023), Accurate measurement of the loss rate of cold atoms due to background gas collisions for the quantum-based cold atom vacuum standard, AVS Quantum Science, [online], https://doi.org/10.1116/5.0147686, https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=936310 (Accessed October 5, 2024)

Issues

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Created August 1, 2023, Updated August 2, 2023