Temperature dependence of pressure broadening and shifts of acetylene at 1550 nm by He, Ne, and Ar

Bond, K.S.; Collett, N.D.; Fuller, E.P.; Hardwick, J. L.; Hinds, E.E.; Keiber, Trevor; Kelly-Morgan, I.S.G.; Matthys, C.M.; Pilkenton, M.J.; Sinclair, K.; Taylor, Andrew

doi:10.1007/s00340-007-2842-0

Cited by 15 publications

(14 citation statements)

References 45 publications

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“…Since that time, this study was extended down to 195 K for the rare gases [6], demonstrating that there is satisfactory agreement between experiment and close coupling calculations over a range of temperatures.…”

Section: Introductionmentioning

confidence: 75%

Experimental line broadening and line shift coefficients of the acetylene ν1+ν3 band pressurized by hydrogen and deuterium and comparison with calculations

Thibault

Fuller

Grabow

et al. 2009

Journal of Molecular Spectroscopy

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Section: Introductionmentioning

confidence: 75%

Experimental line broadening and line shift coefficients of the acetylene ν1+ν3 band pressurized by hydrogen and deuterium and comparison with calculations

Thibault

Fuller

Grabow

et al. 2009

Journal of Molecular Spectroscopy

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“…where Δν G is the Gaussian linewidth, allowing a maximum 5% linewidth broadening due to impurities will yield a maximum impurity percentage of ∼10% for contamination by air (see [21] for broadening coefficients of acetylene in various buffer gases and [22] for numerical values of the Gaussian linewidths). According to a measured gas leakage rate of 1 mbar=h, this corresponds to a maximum allowed filling time of 10 h for a 100 mbars filling pressure.…”

Section: Ideal Gas-filling Conditionsmentioning

confidence: 99%

Analytical modeling of the gas-filling dynamics in photonic crystal fibers

2010

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We present useful expressions predicting the filling time of gaseous species inside photonic crystal fibers. Based on the theory of diffusion, this gas-filling model can be applied to any given fiber geometry or length by calculating diffusion coefficients. This was experimentally validated by monitoring the filling process of acetylene gas in several fiber samples of various geometries and lengths. The measured filling times agree well, within AE15%, with the predicted values for all fiber samples. In addition, the pressure dependence of the diffusion coefficient was experimentally verified by filling a given fiber sample with acetylene gas at various pressures. Finally, optimized conditions for gas-light interaction are determined by considering the gas flow dynamics in the design of microstructured fibers for gas detection and all-fiber gas cell applications.

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“…9 OCS-He shift values for all transitions set to zero due to lack of data 10 OCS-He temperature dependence values for all transitions set to 0.75 due to lack of data 11 OCS-H 2 broadening dataset constructed using Broquier et al [95]. Transitions not studied in this source are set to the average value γ OCS-H2 ¼ 0:0525 cm À 1 atm À 1 12 6 Bouanich et al [106] 7 Varanasi and Bangaru [113] 8 Thibault et al [110] 9 Babay et al [104] 10 Valipour and Zimmermann [125] 11 Podolske et al [123] 12 Bouanich et al [116] 13 Thibault [124] 14 Heijmen et al [120] 15 Blanquet et al [114] 16 Bouanich et al [117] 17 Dutta et al [119] 18 Buldyreva et al [118] 19 Lucchesini et al [108] 20 Nguyen et al [122] 21 Ivanov and Buzykin [121] 22 Minutolo et al [127] 23 Martin et al [126] 24 Bond et al [115] 25 Temperature exponent averaging (n¼ 0.59) for final c2h2.h2 file with data from Refs. [110,111] 26 In the ν 1 þν 3 band linear fits to data from Refs.…”

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confidence: 99%

H 2 , He, and CO 2 line-broadening coefficients, pressure shifts and temperature-dependence exponents for the HITRAN database. Part 1: SO 2 , NH 3 , HF, HCl, OCS and C 2 H 2

Wilzewski

Gordon

Kochanov

et al. 2016

Journal of Quantitative Spectroscopy and Radiative Transfer

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Temperature dependence of pressure broadening and shifts of acetylene at 1550 nm by He, Ne, and Ar

Cited by 15 publications

References 45 publications

Experimental line broadening and line shift coefficients of the acetylene ν1+ν3 band pressurized by hydrogen and deuterium and comparison with calculations

Experimental line broadening and line shift coefficients of the acetylene ν1+ν3 band pressurized by hydrogen and deuterium and comparison with calculations

Analytical modeling of the gas-filling dynamics in photonic crystal fibers

H 2 , He, and CO 2 line-broadening coefficients, pressure shifts and temperature-dependence exponents for the HITRAN database. Part 1: SO 2 , NH 3 , HF, HCl, OCS and C 2 H 2

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