Pressure scaling of the collisional broadening parameters of Kr
4p6S01→→5p[3/2]2
transition

Abinash Sahoo; Dominic Zelenak; Dominic Zelenak; Venkateswaran Narayanaswamy

doi:10.1364/AO.394932

Applied Optics
Vol. 59,
Issue 26,
pp. 7760-7769
(2020)
•https://doi.org/10.1364/AO.394932

Pressure scaling of the collisional broadening parameters of Kr $4{p^6}S_0^1 \to \to 5p{[3/2]_2}$ transition

Abinash Sahoo, Dominic Zelenak, and Venkateswaran Narayanaswamy

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Abinash Sahoo, Dominic Zelenak, and Venkateswaran Narayanaswamy, "Pressure scaling of the collisional broadening parameters of Kr 4p⁶S01→→5p[3/2]₂ transition," Appl. Opt. 59, 7760-7769 (2020)

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- Spectroscopy
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About this Article
History
- Original Manuscript: April 10, 2020
- Revised Manuscript: July 26, 2020
- Manuscript Accepted: August 3, 2020
- Published: September 3, 2020

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Abstract

Pressure scaling of collisional broadening parameters of krypton (absorber) $4{p^6}S_0^1 \to \to 5p{[3/2]_2}$ transition centered at 107.3 nm in the presence of nitrogen ${{\rm N}_2}$ (perturber) is investigated. The absorption spectrum in the vicinity of the transition is obtained from the two-photon excitation scan of krypton in the presence of the perturber at different prescribed pressures varying from a few torrs to 10 atm. The absorption spectra reveal noticeable asymmetry at atmospheric pressure, and the asymmetry becomes increasingly pronounced with pressure; however, the absorption spectra at sub-atmospheric pressures tested are symmetric. The absorption spectra are fitted with synthetic asymmetric Voigt profiles across all pressures, wherein the asymmetry parameter is varied to capture the asymmetry at different pressures. The collisional shift (${\delta _C}$), the symmetric equivalent collisional full width at half maximum (${w_{C,0}}$), and the asymmetry parameter ($a$) are determined from the synthetic fits at various pressures. All the parameters are observed to vary linearly with pressure over the entire range of the pressure values tested. The mechanisms that cause the asymmetry in the absorption spectra are also discussed.

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Kr Pressure (atm)	$w_{C, K r}$ ( ${c m}^{- 1}$ )	$δ_{C, K r}$ ( ${c m}^{- 1}$ )
0	0	0
0.1	0.0381	$- 0.0119$
0.2	0.0762	$- 0.0237$
0.25	0.0952	$- 0.0297$
0.3	0.1143	$- 0.0356$
0.4	0.1524	$- 0.0475$
0.5	0.1905	$- 0.0593$

Pressure (atm)	Kr Pressure (torr)	Scan Speed ( ${c m}^{- 1} / s$ )
0	2	0.032
0.25	2	0.032
0.75	2	0.032
1	6	0.064
2	24	0.16
5	95	0.16
10	360	0.16

$P$ (atm)	$w_{A b s}$	$w_{G}$	$w_{L o r}$
0	0.2027	0.0945	0.1715
0.25	0.2770	0.0814	0.2493
0.5	0.4087	0.1330	0.3638
0.75	0.4391	0.1015	0.4110
1	0.5708	0.1348	0.5169
2	1.0808	0.3684	1.0158
5	2.5498	1.6053	2.1699
10	5.6217	3.4017	4.2163

$P$ (atm)	$w_{C, 0}$	$δ_{C}$	$a$	RMS Fit
0	0.0115	0.0000	0.0000	0.0247
0.25	0.0893	$- 0.0312$	0.4245	0.0255
0.5	0.2038	$- 0.0727$	0.5592	0.0253
0.75	0.2510	$- 0.1125$	0.4980	0.0282
1	0.3569	$- 0.1461$	0.7857	0.0216
2	0.8558	$- 0.2669$	1.4276	0.0104
5	1.9719	$- 0.7517$	3.0510	0.0311
10	3.8658	$- 1.8838$	6.0837	0.0807

$P$ (atm)	$w_{A b s}$	$w_{G}$	$w_{L o r}$	$w_{C, 0}$	RMS Fit
0	0.2027	0.0945	0.1715	0.0115	0.0247
0.25	0.2770	0.0945	0.2435	0.2435	0.0259
0.5	0.4087	0.1394	0.3574	0.3574	0.0275
0.75	0.4391	0.1015	0.4110	0.4110	0.0298
1	0.5708	0.1416	0.5112	0.3512	0.0294

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Applied Optics