Doppler-free two-photon spectroscopy in the vacuum ultraviolet: helium 1<sup>1</sup>S– 2<sup>1</sup>S transition

S. D. Bergeson; K. G. H. Baldwin; T. B. Lucatorto; T. J. McIlrath; C. H. Cheng; E. E. Eyler

doi:10.1364/JOSAB.17.001599

Journal of the Optical Society of America B
Vol. 17,
Issue 9,
pp. 1599-1606
(2000)
•https://doi.org/10.1364/JOSAB.17.001599

Doppler-free two-photon spectroscopy in the vacuum ultraviolet: helium 1¹S– 2¹S transition

S. D. Bergeson, K. G. H. Baldwin, T. B. Lucatorto, T. J. McIlrath, C. H. Cheng, and E. E. Eyler

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S. D. Bergeson, K. G. H. Baldwin, T. B. Lucatorto, T. J. McIlrath, C. H. Cheng, and E. E. Eyler, "Doppler-free two-photon spectroscopy in the vacuum ultraviolet: helium 1¹S– 2¹S transition," J. Opt. Soc. Am. B 17, 1599-1606 (2000)

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Abstract

We describe techniques for laser spectroscopy in the vacuum-UV (VUV) spectral region that combine high spectral resolution with high absolute accuracy. A nearly transform-limited nanosecond laser source at 120 nm is constructed with difference-frequency mixing. This source is used to perform the first, to our knowledge, Doppler-free VUV measurement. We measure the inherently narrow $1^{1} S - 2^{1} S$ two-photon transition in atomic helium with a spectral resolution of 7 parts in $10^{8}$ (180 MHz), the narrowest line width so far observed at such short wavelengths. Careful measurements of optical phase perturbations allow us to determine the absolute frequency of the line center to a fractional uncertainty of 1 part in $10^{8} .$ Improvements now in progress should reduce this uncertainty to 2 parts in $10^{9} .$

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Source	Uncertainty (MHz)
ac Stark shift	0.7
Ne reference transition	5.6
Free spectral range	6.3
Frequency scan	10.0
Optical phase perturbation	13.0
Zero power extrapolation	44.0
Combined standard uncertainty	48
	1 part in $10^{8}$

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Journal of the Optical Society of America B