Measuring the velocity of individual atoms in real time

C. Y. She; W. M. Fairbank; Kenneth W. Billman

doi:10.1364/OL.2.000030

Optics Letters
Vol. 2,
Issue 2,
pp. 30-32
(1978)
•https://doi.org/10.1364/OL.2.000030

Measuring the velocity of individual atoms in real time

C. Y. She, W. M. Fairbank, and Kenneth W. Billman

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C. Y. She, W. M. Fairbank, and Kenneth W. Billman, "Measuring the velocity of individual atoms in real time," Opt. Lett. 2, 30-32 (1978)

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Abstract

It is proposed that the thermal velocity of a single atom could be measured in real time using a laser time-of-flight velocimeter (LTV) operating on the principle of laser resonance fluorescence. Theoretical data are presented for several atomic species that have resonances within the range of available dye-laser systems. It is shown that measurements in the subsonic region are certainly feasible. The atoms could be either in vacuum or in a buffer gas, e.g., at atmospheric pressure. Measurements in the transonic and supersonic region also appear possible. One potential application is the measurement of flow speeds in wind tunnels, perhaps as high as Mach 45.

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Atom	λ_laser (Å)	λ_fluor(Å)	F_max	Pressure Broadening (GHz)^a	υ_max(cm/sec)
Atom	λ_laser (Å)	λ_fluor(Å)	F_max	Pressure Broadening (GHz)^a	Vacuum^b	1 atm of N₂^c
Na	5890	5890	No limit	8.5	1.7 × 10⁶	2.4 × 10⁵
Cs	4555	8521	1^f; no limit	12	Does not work^f	1.3 × 10³ ^e
K	4044	7645	1^f; no limit	14	Does not work^f	2.6 × 10³
Rb	4202	7800	1^f; no limit	11	Does not work^f	3.3 × 10³
Ba	5535	5535	24	5	1.1 × 10⁷ ^d	1.5 × 10⁶ ^d
Sr	4607	4607	19–99 (estimate)	9	3.7 × 10⁶	3.9 × 10⁵
Ca	4227	4227	?	8.7	3.3 × 10⁶	3.6 × 10⁵

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Optics Letters