Origin and properties of polychromatic directional emission from sodium atoms

Alexander M. Akulshin; Alexander M. Akulshin; Alexander M. Akulshin; Felipe Pedreros Bustos; Felipe Pedreros Bustos; Nafia Rahaman; Nafia Rahaman; Dmitry Budker; Dmitry Budker

doi:10.1364/JOSAB.499977

Journal of the Optical Society of America B
Vol. 40,
Issue 12,
pp. 3276-3283
(2023)
•https://doi.org/10.1364/JOSAB.499977

Origin and properties of polychromatic directional emission from sodium atoms

Alexander M. Akulshin, Felipe Pedreros Bustos, Nafia Rahaman, and Dmitry Budker

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Alexander M. Akulshin, Felipe Pedreros Bustos, Nafia Rahaman, and Dmitry Budker, "Origin and properties of polychromatic directional emission from sodium atoms," J. Opt. Soc. Am. B 40, 3276-3283 (2023)

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- Quantum Optics
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About this Article
History
- Original Manuscript: July 6, 2023
- Revised Manuscript: October 17, 2023
- Manuscript Accepted: October 28, 2023
- Published: November 29, 2023

Abstract

The parametric and nonparametric nonlinear processes responsible for generation of directional infrared radiation in sodium vapors, excited to the ${{\rm 4D}_{5/2}}$ energy level by resonant laser radiation, are identified by the transfer of orbital angular momentum from the pump radiation to the generated fields. We show that the optical fields generated by amplified spontaneous emission (ASE) simultaneously participate in several loops of four-wave mixing (FWM) generating new directional emission. The measured spectral linewidth of the FWM emission at 819.7 nm sets an upper limit to the linewidth of two fields resulting from ASE at 2338.6 and 9093.0 nm, assuming their spectra are uncorrelated. Understanding details of the new-field generation is central to applications such as directional laser guide stars, stand-off magnetometry, and entangled field generation.

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Transition	Wavelength, nm	Transition Rate $\times 10^{6}$ ( ${s e c}^{- 1}$ )	Branching Ratio
${4 D}_{5 / 2} \to {3 P}_{3 / 2}$	569.0	12.1	0.64
${4 D}_{5 / 2} \to {4 P}_{3 / 2}$	2338.6	6.96	0.36
${4 P}_{3 / 2} \to {3 S}_{1 / 2}$	330.3	2.66	0.28
${4 P}_{3 / 2} \to {4 S}_{1 / 2}$	2206.3	6.61	0.70
${4 P}_{3 / 2} \to {3 D}_{3 / 2}$	9093.4	0.0159	0.0017
${4 P}_{3 / 2} \to {3 D}_{5 / 2}$	9093.0	0.143	0.0152
${3 D}_{3 / 2} \to {3 P}_{1 / 2}$	818.5505	42.6	0.83
${3 D}_{3 / 2} \to {3 P}_{3 / 2}$	819.7043	8.50	0.17
${3 D}_{5 / 2} \to {3 P}_{3 / 2}$	819.7077	51.0	1.00
${4 S}_{1 / 2} \to {3 P}_{1 / 2}$	1138.456	8.78	0.33
${4 S}_{1 / 2} \to {3 P}_{3 / 2}$	1140.689	17.5	0.67
${3 P}_{3 / 2} \to {3 S}_{1 / 2}$	589.1583	61.52	1.0
${3 P}_{1 / 2} \to {3 S}_{1 / 2}$	589.7558	61.35	1.0

Alexander M. Akulshin	https://orcid.org/0000-0003-4335-6165
Felipe Pedreros Bustos	https://orcid.org/0000-0001-7664-1590
Dmitry Budker	https://orcid.org/0000-0002-7356-4814

Abstract

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Journal of the Optical Society of America B