Abstract

Temperature dependence of molecular absorption line shape is important information for spectroscopic studies and applications. In this work, we report a comb-locked cavity ring-down spectrometer employing a cryogenic cooler to perform absorption spectroscopy measurements at temperatures between 40 K and 300 K. As a demonstration, we recorded the spectrum of the R(0) line in the (2-0) band of HD at 46 K. The temperature was also confirmed by the Doppler width of the HD line. Spectra of CH4 near 1.394 μm were also recorded in a wide temperature range of 70−300 K. Lower-state energies of methane lines were analyzed by fitting these spectra, which can be directly compared with the HITRAN and TheoReTS databases. Considerable deviations were observed, indicating the need to investigate the assignments of the methane lines in this region.

© 2019 Optical Society of America under the terms of the OSA Open Access Publishing Agreement

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  1. A. J. Fleisher, E. M. Adkins, Z. D. Reed, H. Yi, D. A. Long, H. M. Fleurbaey, and J. T. Hodges, “Twenty-five-fold reduction in measurement uncertainty for a molecular line intensity,” Phys. Rev. Lett. 123(4), 043001 (2019).
    [Crossref]
  2. O. L. Polyansky, K. Bielska, M. Ghysels, L. Lodi, N. F. Zobov, J. T. Hodges, and J. Tennyson, “High-accuracy CO2 line intensities determined from theory and experiment,” Phys. Rev. Lett. 114(24), 243001 (2015).
    [Crossref]
  3. J. Wang, Y. R. Sun, L.-G. Tao, A.-W. Liu, and S.-M. Hu, “Communication: molecular near-infrared transitions determined with sub-kHz accuracy,” J. Chem. Phys. 147(9), 091103 (2017).
    [Crossref]
  4. Y. Tan, S. N. Mikhailenko, J. Wang, A.-W. Liu, X.-Q. Zhao, G.-L. Liu, and S.-M. Hu, “CRDS absorption spectrum of 17O enriched water vapor in the 12,277–12,894 cm−1 range,” J. Quant. Spectrosc. Radiat. Transfer 221, 233–242 (2018).
    [Crossref]
  5. O. Lyulin, S. Béguier, S.-M. Hu, and A. Campargue, “The absorption spectrum of acetylene near 1 μm (9280–10740 cm−1) (I): Line positions,” J. Quant. Spectrosc. Radiat. Transfer 208, 179–187 (2018).
    [Crossref]
  6. F. L. Hoch, “Low-temperature absorption spectroscopy (cryoabsorption spectroscopy),” J. Chem. Educ. 32(9), 469–471 (1955).
    [Crossref]
  7. D. R. Willey, R. L. Crownover, D. N. Bittner, and F. C. De Lucia, “Very low temperature spectroscopy: The pressure broadening coefficients for CO-He between 4.3 and 1.7 K,” J. Chem. Phys. 89(4), 1923–1928 (1988).
    [Crossref]
  8. G. J. SchererKevin, K. Lehmann, and W. Klemperer, “The high-resolution visible overtone spectrum of CH4 and CD3H at 77 K,” J. Chem. Phys. 81(12), 5319–5325 (1984).
    [Crossref]
  9. J. J. O’Brien and H. Cao, “Absorption spectra and absorption coefficients for methane in the 750–940 nm region obtained by intracavity laser spectroscopy,” J. Quant. Spectrosc. Radiat. Transfer 75(3), 323–350 (2002).
    [Crossref]
  10. K. Singh and J. J. O’Brien, “Laboratory measurements of absorption coefficients for the 727 nm band of methane at 77 K and comparison with results derived from spectra of the Giant planets,” J. Quant. Spectrosc. Radiat. Transfer 54(4), 607–619 (1995).
    [Crossref]
  11. G. Pierre, J.-C. Hilico, C. de Bergh, and J.-P. Maillard, “The region of the 3ν3 band of methane,” J. Mol. Spectrosc. 82(2), 379–393 (1980).
    [Crossref]
  12. T. Tsukamoto and H. Sasada, “Extended assignments of the 3ν1 + ν3 band of methane,” J. Chem. Phys. 102(13), 5126–5140 (1995).
    [Crossref]
  13. K. Boraas, D. Deboer, Z. Lin, and J. P. Reilly, “The Stark effect in methane’s 3ν1 + ν3 vibrational overtone band,” J. Chem. Phys. 99(2), 1429–1432 (1993).
    [Crossref]
  14. L. Yang, H. Lin, X. J. Feng, and J. T. Zhang, “Temperature-scanning saturation cavity ringdown spectrometry for Doppler-free spectroscopy,” Opt. Express 26(8), 10203–10210 (2018).
    [Crossref]
  15. A. Campargue, M. Chenevier, and F. Stoeckel, “Intracavity-laser-absorption spectroscopy of the visible overtone transition of methane in a supersonically cooled jet,” Chem. Phys. Lett. 183(1-2), 153–157 (1991).
    [Crossref]
  16. A. Campargue, D. Permogorov, and R. Jost, “Intracavity absorption spectroscopy of the third stretching overtone transition of jet cooled methane,” J. Chem. Phys. 102(15), 5910–5916 (1995).
    [Crossref]
  17. A. Amrein, M. Quack, and U. Schmitt, “High-resolution interferometric Fourier transform infrared absorption spectroscopy in supersonic free jet expansions: carbon monoxide, nitric oxide, methane, ethyne, propyne, and trifluoromethane,” J. Phys. Chem. 92(19), 5455–5466 (1988).
    [Crossref]
  18. K. Boraas, D. Deboer, Z. Lin, and J. P. Reilly, “High resolution study of methane’s 3ν1 + ν3 vibrational overtone band,” J. Chem. Phys. 100(11), 7916–7927 (1994).
    [Crossref]
  19. C. Moehnke, E. K. Lewis, A. Lopez-Calvo, and C. Manzanares, “Phase shift cavity ring down at low temperatures: Vibration-rotation overtone absorption of H-D (Δν = 4) at 297 and 105 K,” Chem. Phys. Lett. 418(4-6), 576–580 (2006).
    [Crossref]
  20. E. K. Lewis, C. Moehnke, J. Navea, and C. Manzanares, “Low temperature cell for cavity ring down absorption studies,” Rev. Sci. Instrum. 77(7), 073107 (2006).
    [Crossref]
  21. Y. Perez-Delgado and C. Manzanares, “Cavity ring down and Fourier transform infrared spectroscopy at low temperatures (84-297 K): Fermi resonance and intensities of the C-H fundamental and overtone (Δν = 1-6) transitions of CHD3,” J. Phys. Chem. A 114(30), 7918–7927 (2010).
    [Crossref]
  22. Y. Perez-Delgado and C. Manzanares, “Low temperature cavity ring down spectroscopy with off-axis alignment: application to the A- and γ-bands of O2 in the visible at 90 K,” Appl. Phys. B 106(4), 971–978 (2012).
    [Crossref]
  23. M. Hippler and M. Quack, “Cw cavity ring-down infrared absorption spectroscopy in pulsed supersonic jets: nitrous oxide and methane,” Chem. Phys. Lett. 314(3-4), 273–281 (1999).
    [Crossref]
  24. M. Hippler and M. Quack, “High-resolution Fourier transform infrared and cw-diode laser cavity ringdown spectroscopy of the ν2 + 2ν3 band of methane near 7510 cm−1 in slit jet expansions and at room temperature,” J. Chem. Phys. 116(14), 6045–6055 (2002).
    [Crossref]
  25. M. Ghysels, Q. Liu, A. J. Fleisher, and J. T. Hodges, “A variable-temperature cavity ring-down spectrometer with application to line shape analysis of CO2 spectra in the 1600 nm region,” Appl. Phys. B 123(4), 124 (2017).
    [Crossref]
  26. L.-G. Tao, A.-W. Liu, K. Pachucki, J. Komasa, Y. R. Sun, J. Wang, and S.-M. Hu, “Toward a determination of the Proton-electron mass ratio from the Lamb-dip measurement of HD,” Phys. Rev. Lett. 120(15), 153001 (2018).
    [Crossref]
  27. A. Campargue, O. Leshchishina, L. Wang, D. Mondelain, S. Kassi, and A. V. Nikitin, “Refinements of the WKMC empirical line lists (5852-7919 cm−1) for methane between 80 K and 296 K,” J. Quant. Spectrosc. Radiat. Transfer 113(15), 1855–1873 (2012).
    [Crossref]
  28. A. Campargue, O. Leshchishina, L. Wang, D. Mondelain, and S. Kassi, “The WKLMC empirical line lists (5852–7919 cm−1) for methane between 80 K and 296 K: ”final” lists for atmospheric and planetary applications,” J. Mol. Spectrosc. 291, 16–22 (2013).
    [Crossref]
  29. D. ChrisBenner, V. MalathyDevi, K. Sung, L. R. Brown, C. E. Miller, V. H. Payne, B. J. Drouin, S. Yu, T. J. Crawford, A. W. Mantz, M. A. H. Smith, and R. R. Gamache, “Line parameters including temperature dependences of air- and self-broadened line shapes of 12C16O2: 2.06-μm region,” J. Mol. Spectrosc. 326, 21–47 (2016).
    [Crossref]
  30. C.-F. Cheng, Y. R. Sun, H. Pan, Y. Lu, X.-F. Li, J. Wang, A.-W. Liu, and S.-M. Hu, “Cavity ring-down spectroscopy of Doppler-broadened absorption line with sub-MHz absolute frequency accuracy,” Opt. Express 20(9), 9956–9961 (2012).
    [Crossref]
  31. L.-G. Tao, T.-P. Hua, Y. R. Sun, J. Wang, A.-W. Liu, and S.-M. Hu, “Frequency metrology of the acetylene lines near 789 nm from Lamb-dip measurements,” J. Quant. Spectrosc. Radiat. Transfer 210, 111–115 (2018).
    [Crossref]
  32. I. E. Gordon, L. S. Rothman, C. Hill, R. V. Kochanov, Y. Tan, P. F. Bernath, M. Birk, V. Boudon, A. Campargue, K. V. Chance, B. J. Drouin, J. M. Flaud, R. R. Gamache, J. T. Hodges, D. Jacquemart, V. I. Perevalov, A. Perrin, K. P. Shine, M. A. H. Smith, J. Tennyson, G. C. Toon, H. Tran, V. G. Tyuterev, A. Barbe, A. G. Császár, V. M. Devi, T. Furtenbacher, J. J. Harrison, J. M. Hartmann, A. Jolly, T. J. Johnson, T. Karman, I. Kleiner, A. A. Kyuberis, J. Loos, O. M. Lyulin, S. T. Massie, S. N. Mikhailenko, N. Moazzen-Ahmadi, H. S. P. Müller, O. V. Naumenko, A. V. Nikitin, O. L. Polyansky, M. Rey, M. Rotger, S. W. Sharpe, K. Sung, E. Starikova, S. A. Tashkun, J. V. Auwera, G. Wagner, J. Wilzewski, P. Wcisło, S. Yu, and E. J. Zak, “The HITRAN2016 molecular spectroscopic database,” J. Quant. Spectrosc. Radiat. Transfer 203, 3–69 (2017).
    [Crossref]
  33. N. H. Ngo, D. Lisak, H. Tran, and J. M. Hartmann, “An isolated line-shape model to go beyond the Voigt profile in spectroscopic databases and radiative transfer codes,” J. Quant. Spectrosc. Radiat. Transfer 129, 89–100 (2013).
    [Crossref]
  34. M. Rey, A. V. Nikitin, Y. L. Babikov, and V. G. Tyuterev, “TheoReTS–An information system for theoretical spectra based on variational predictions from molecular potential energy and dipole moment surfaces,” J. Mol. Spectrosc. 327, 138–158 (2016).
    [Crossref]
  35. M. Šimečková, D. Jacquemart, L. S. Rothmana, R. R. Gamache, and A. Goldman, “Einstein A-coefficients and statistical weights for molecular absorption transitions in the HITRAN database,” J. Quant. Spectrosc. Radiat. Transfer 98(1), 130–155 (2006).
    [Crossref]
  36. S. Kassi, B. Gao, D. Romaninia, and A. Campargue, “The near-infrared (1.30-1.70 μm) absorption spectrum of methane down to 77 K,” Phys. Chem. Chem. Phys. 10(30), 4410–4419 (2008).
    [Crossref]

2019 (1)

A. J. Fleisher, E. M. Adkins, Z. D. Reed, H. Yi, D. A. Long, H. M. Fleurbaey, and J. T. Hodges, “Twenty-five-fold reduction in measurement uncertainty for a molecular line intensity,” Phys. Rev. Lett. 123(4), 043001 (2019).
[Crossref]

2018 (5)

Y. Tan, S. N. Mikhailenko, J. Wang, A.-W. Liu, X.-Q. Zhao, G.-L. Liu, and S.-M. Hu, “CRDS absorption spectrum of 17O enriched water vapor in the 12,277–12,894 cm−1 range,” J. Quant. Spectrosc. Radiat. Transfer 221, 233–242 (2018).
[Crossref]

O. Lyulin, S. Béguier, S.-M. Hu, and A. Campargue, “The absorption spectrum of acetylene near 1 μm (9280–10740 cm−1) (I): Line positions,” J. Quant. Spectrosc. Radiat. Transfer 208, 179–187 (2018).
[Crossref]

L. Yang, H. Lin, X. J. Feng, and J. T. Zhang, “Temperature-scanning saturation cavity ringdown spectrometry for Doppler-free spectroscopy,” Opt. Express 26(8), 10203–10210 (2018).
[Crossref]

L.-G. Tao, A.-W. Liu, K. Pachucki, J. Komasa, Y. R. Sun, J. Wang, and S.-M. Hu, “Toward a determination of the Proton-electron mass ratio from the Lamb-dip measurement of HD,” Phys. Rev. Lett. 120(15), 153001 (2018).
[Crossref]

L.-G. Tao, T.-P. Hua, Y. R. Sun, J. Wang, A.-W. Liu, and S.-M. Hu, “Frequency metrology of the acetylene lines near 789 nm from Lamb-dip measurements,” J. Quant. Spectrosc. Radiat. Transfer 210, 111–115 (2018).
[Crossref]

2017 (3)

I. E. Gordon, L. S. Rothman, C. Hill, R. V. Kochanov, Y. Tan, P. F. Bernath, M. Birk, V. Boudon, A. Campargue, K. V. Chance, B. J. Drouin, J. M. Flaud, R. R. Gamache, J. T. Hodges, D. Jacquemart, V. I. Perevalov, A. Perrin, K. P. Shine, M. A. H. Smith, J. Tennyson, G. C. Toon, H. Tran, V. G. Tyuterev, A. Barbe, A. G. Császár, V. M. Devi, T. Furtenbacher, J. J. Harrison, J. M. Hartmann, A. Jolly, T. J. Johnson, T. Karman, I. Kleiner, A. A. Kyuberis, J. Loos, O. M. Lyulin, S. T. Massie, S. N. Mikhailenko, N. Moazzen-Ahmadi, H. S. P. Müller, O. V. Naumenko, A. V. Nikitin, O. L. Polyansky, M. Rey, M. Rotger, S. W. Sharpe, K. Sung, E. Starikova, S. A. Tashkun, J. V. Auwera, G. Wagner, J. Wilzewski, P. Wcisło, S. Yu, and E. J. Zak, “The HITRAN2016 molecular spectroscopic database,” J. Quant. Spectrosc. Radiat. Transfer 203, 3–69 (2017).
[Crossref]

M. Ghysels, Q. Liu, A. J. Fleisher, and J. T. Hodges, “A variable-temperature cavity ring-down spectrometer with application to line shape analysis of CO2 spectra in the 1600 nm region,” Appl. Phys. B 123(4), 124 (2017).
[Crossref]

J. Wang, Y. R. Sun, L.-G. Tao, A.-W. Liu, and S.-M. Hu, “Communication: molecular near-infrared transitions determined with sub-kHz accuracy,” J. Chem. Phys. 147(9), 091103 (2017).
[Crossref]

2016 (2)

D. ChrisBenner, V. MalathyDevi, K. Sung, L. R. Brown, C. E. Miller, V. H. Payne, B. J. Drouin, S. Yu, T. J. Crawford, A. W. Mantz, M. A. H. Smith, and R. R. Gamache, “Line parameters including temperature dependences of air- and self-broadened line shapes of 12C16O2: 2.06-μm region,” J. Mol. Spectrosc. 326, 21–47 (2016).
[Crossref]

M. Rey, A. V. Nikitin, Y. L. Babikov, and V. G. Tyuterev, “TheoReTS–An information system for theoretical spectra based on variational predictions from molecular potential energy and dipole moment surfaces,” J. Mol. Spectrosc. 327, 138–158 (2016).
[Crossref]

2015 (1)

O. L. Polyansky, K. Bielska, M. Ghysels, L. Lodi, N. F. Zobov, J. T. Hodges, and J. Tennyson, “High-accuracy CO2 line intensities determined from theory and experiment,” Phys. Rev. Lett. 114(24), 243001 (2015).
[Crossref]

2013 (2)

N. H. Ngo, D. Lisak, H. Tran, and J. M. Hartmann, “An isolated line-shape model to go beyond the Voigt profile in spectroscopic databases and radiative transfer codes,” J. Quant. Spectrosc. Radiat. Transfer 129, 89–100 (2013).
[Crossref]

A. Campargue, O. Leshchishina, L. Wang, D. Mondelain, and S. Kassi, “The WKLMC empirical line lists (5852–7919 cm−1) for methane between 80 K and 296 K: ”final” lists for atmospheric and planetary applications,” J. Mol. Spectrosc. 291, 16–22 (2013).
[Crossref]

2012 (3)

C.-F. Cheng, Y. R. Sun, H. Pan, Y. Lu, X.-F. Li, J. Wang, A.-W. Liu, and S.-M. Hu, “Cavity ring-down spectroscopy of Doppler-broadened absorption line with sub-MHz absolute frequency accuracy,” Opt. Express 20(9), 9956–9961 (2012).
[Crossref]

A. Campargue, O. Leshchishina, L. Wang, D. Mondelain, S. Kassi, and A. V. Nikitin, “Refinements of the WKMC empirical line lists (5852-7919 cm−1) for methane between 80 K and 296 K,” J. Quant. Spectrosc. Radiat. Transfer 113(15), 1855–1873 (2012).
[Crossref]

Y. Perez-Delgado and C. Manzanares, “Low temperature cavity ring down spectroscopy with off-axis alignment: application to the A- and γ-bands of O2 in the visible at 90 K,” Appl. Phys. B 106(4), 971–978 (2012).
[Crossref]

2010 (1)

Y. Perez-Delgado and C. Manzanares, “Cavity ring down and Fourier transform infrared spectroscopy at low temperatures (84-297 K): Fermi resonance and intensities of the C-H fundamental and overtone (Δν = 1-6) transitions of CHD3,” J. Phys. Chem. A 114(30), 7918–7927 (2010).
[Crossref]

2008 (1)

S. Kassi, B. Gao, D. Romaninia, and A. Campargue, “The near-infrared (1.30-1.70 μm) absorption spectrum of methane down to 77 K,” Phys. Chem. Chem. Phys. 10(30), 4410–4419 (2008).
[Crossref]

2006 (3)

C. Moehnke, E. K. Lewis, A. Lopez-Calvo, and C. Manzanares, “Phase shift cavity ring down at low temperatures: Vibration-rotation overtone absorption of H-D (Δν = 4) at 297 and 105 K,” Chem. Phys. Lett. 418(4-6), 576–580 (2006).
[Crossref]

E. K. Lewis, C. Moehnke, J. Navea, and C. Manzanares, “Low temperature cell for cavity ring down absorption studies,” Rev. Sci. Instrum. 77(7), 073107 (2006).
[Crossref]

M. Šimečková, D. Jacquemart, L. S. Rothmana, R. R. Gamache, and A. Goldman, “Einstein A-coefficients and statistical weights for molecular absorption transitions in the HITRAN database,” J. Quant. Spectrosc. Radiat. Transfer 98(1), 130–155 (2006).
[Crossref]

2002 (2)

M. Hippler and M. Quack, “High-resolution Fourier transform infrared and cw-diode laser cavity ringdown spectroscopy of the ν2 + 2ν3 band of methane near 7510 cm−1 in slit jet expansions and at room temperature,” J. Chem. Phys. 116(14), 6045–6055 (2002).
[Crossref]

J. J. O’Brien and H. Cao, “Absorption spectra and absorption coefficients for methane in the 750–940 nm region obtained by intracavity laser spectroscopy,” J. Quant. Spectrosc. Radiat. Transfer 75(3), 323–350 (2002).
[Crossref]

1999 (1)

M. Hippler and M. Quack, “Cw cavity ring-down infrared absorption spectroscopy in pulsed supersonic jets: nitrous oxide and methane,” Chem. Phys. Lett. 314(3-4), 273–281 (1999).
[Crossref]

1995 (3)

K. Singh and J. J. O’Brien, “Laboratory measurements of absorption coefficients for the 727 nm band of methane at 77 K and comparison with results derived from spectra of the Giant planets,” J. Quant. Spectrosc. Radiat. Transfer 54(4), 607–619 (1995).
[Crossref]

A. Campargue, D. Permogorov, and R. Jost, “Intracavity absorption spectroscopy of the third stretching overtone transition of jet cooled methane,” J. Chem. Phys. 102(15), 5910–5916 (1995).
[Crossref]

T. Tsukamoto and H. Sasada, “Extended assignments of the 3ν1 + ν3 band of methane,” J. Chem. Phys. 102(13), 5126–5140 (1995).
[Crossref]

1994 (1)

K. Boraas, D. Deboer, Z. Lin, and J. P. Reilly, “High resolution study of methane’s 3ν1 + ν3 vibrational overtone band,” J. Chem. Phys. 100(11), 7916–7927 (1994).
[Crossref]

1993 (1)

K. Boraas, D. Deboer, Z. Lin, and J. P. Reilly, “The Stark effect in methane’s 3ν1 + ν3 vibrational overtone band,” J. Chem. Phys. 99(2), 1429–1432 (1993).
[Crossref]

1991 (1)

A. Campargue, M. Chenevier, and F. Stoeckel, “Intracavity-laser-absorption spectroscopy of the visible overtone transition of methane in a supersonically cooled jet,” Chem. Phys. Lett. 183(1-2), 153–157 (1991).
[Crossref]

1988 (2)

A. Amrein, M. Quack, and U. Schmitt, “High-resolution interferometric Fourier transform infrared absorption spectroscopy in supersonic free jet expansions: carbon monoxide, nitric oxide, methane, ethyne, propyne, and trifluoromethane,” J. Phys. Chem. 92(19), 5455–5466 (1988).
[Crossref]

D. R. Willey, R. L. Crownover, D. N. Bittner, and F. C. De Lucia, “Very low temperature spectroscopy: The pressure broadening coefficients for CO-He between 4.3 and 1.7 K,” J. Chem. Phys. 89(4), 1923–1928 (1988).
[Crossref]

1984 (1)

G. J. SchererKevin, K. Lehmann, and W. Klemperer, “The high-resolution visible overtone spectrum of CH4 and CD3H at 77 K,” J. Chem. Phys. 81(12), 5319–5325 (1984).
[Crossref]

1980 (1)

G. Pierre, J.-C. Hilico, C. de Bergh, and J.-P. Maillard, “The region of the 3ν3 band of methane,” J. Mol. Spectrosc. 82(2), 379–393 (1980).
[Crossref]

1955 (1)

F. L. Hoch, “Low-temperature absorption spectroscopy (cryoabsorption spectroscopy),” J. Chem. Educ. 32(9), 469–471 (1955).
[Crossref]

Adkins, E. M.

A. J. Fleisher, E. M. Adkins, Z. D. Reed, H. Yi, D. A. Long, H. M. Fleurbaey, and J. T. Hodges, “Twenty-five-fold reduction in measurement uncertainty for a molecular line intensity,” Phys. Rev. Lett. 123(4), 043001 (2019).
[Crossref]

Amrein, A.

A. Amrein, M. Quack, and U. Schmitt, “High-resolution interferometric Fourier transform infrared absorption spectroscopy in supersonic free jet expansions: carbon monoxide, nitric oxide, methane, ethyne, propyne, and trifluoromethane,” J. Phys. Chem. 92(19), 5455–5466 (1988).
[Crossref]

Auwera, J. V.

I. E. Gordon, L. S. Rothman, C. Hill, R. V. Kochanov, Y. Tan, P. F. Bernath, M. Birk, V. Boudon, A. Campargue, K. V. Chance, B. J. Drouin, J. M. Flaud, R. R. Gamache, J. T. Hodges, D. Jacquemart, V. I. Perevalov, A. Perrin, K. P. Shine, M. A. H. Smith, J. Tennyson, G. C. Toon, H. Tran, V. G. Tyuterev, A. Barbe, A. G. Császár, V. M. Devi, T. Furtenbacher, J. J. Harrison, J. M. Hartmann, A. Jolly, T. J. Johnson, T. Karman, I. Kleiner, A. A. Kyuberis, J. Loos, O. M. Lyulin, S. T. Massie, S. N. Mikhailenko, N. Moazzen-Ahmadi, H. S. P. Müller, O. V. Naumenko, A. V. Nikitin, O. L. Polyansky, M. Rey, M. Rotger, S. W. Sharpe, K. Sung, E. Starikova, S. A. Tashkun, J. V. Auwera, G. Wagner, J. Wilzewski, P. Wcisło, S. Yu, and E. J. Zak, “The HITRAN2016 molecular spectroscopic database,” J. Quant. Spectrosc. Radiat. Transfer 203, 3–69 (2017).
[Crossref]

Babikov, Y. L.

M. Rey, A. V. Nikitin, Y. L. Babikov, and V. G. Tyuterev, “TheoReTS–An information system for theoretical spectra based on variational predictions from molecular potential energy and dipole moment surfaces,” J. Mol. Spectrosc. 327, 138–158 (2016).
[Crossref]

Barbe, A.

I. E. Gordon, L. S. Rothman, C. Hill, R. V. Kochanov, Y. Tan, P. F. Bernath, M. Birk, V. Boudon, A. Campargue, K. V. Chance, B. J. Drouin, J. M. Flaud, R. R. Gamache, J. T. Hodges, D. Jacquemart, V. I. Perevalov, A. Perrin, K. P. Shine, M. A. H. Smith, J. Tennyson, G. C. Toon, H. Tran, V. G. Tyuterev, A. Barbe, A. G. Császár, V. M. Devi, T. Furtenbacher, J. J. Harrison, J. M. Hartmann, A. Jolly, T. J. Johnson, T. Karman, I. Kleiner, A. A. Kyuberis, J. Loos, O. M. Lyulin, S. T. Massie, S. N. Mikhailenko, N. Moazzen-Ahmadi, H. S. P. Müller, O. V. Naumenko, A. V. Nikitin, O. L. Polyansky, M. Rey, M. Rotger, S. W. Sharpe, K. Sung, E. Starikova, S. A. Tashkun, J. V. Auwera, G. Wagner, J. Wilzewski, P. Wcisło, S. Yu, and E. J. Zak, “The HITRAN2016 molecular spectroscopic database,” J. Quant. Spectrosc. Radiat. Transfer 203, 3–69 (2017).
[Crossref]

Béguier, S.

O. Lyulin, S. Béguier, S.-M. Hu, and A. Campargue, “The absorption spectrum of acetylene near 1 μm (9280–10740 cm−1) (I): Line positions,” J. Quant. Spectrosc. Radiat. Transfer 208, 179–187 (2018).
[Crossref]

Bernath, P. F.

I. E. Gordon, L. S. Rothman, C. Hill, R. V. Kochanov, Y. Tan, P. F. Bernath, M. Birk, V. Boudon, A. Campargue, K. V. Chance, B. J. Drouin, J. M. Flaud, R. R. Gamache, J. T. Hodges, D. Jacquemart, V. I. Perevalov, A. Perrin, K. P. Shine, M. A. H. Smith, J. Tennyson, G. C. Toon, H. Tran, V. G. Tyuterev, A. Barbe, A. G. Császár, V. M. Devi, T. Furtenbacher, J. J. Harrison, J. M. Hartmann, A. Jolly, T. J. Johnson, T. Karman, I. Kleiner, A. A. Kyuberis, J. Loos, O. M. Lyulin, S. T. Massie, S. N. Mikhailenko, N. Moazzen-Ahmadi, H. S. P. Müller, O. V. Naumenko, A. V. Nikitin, O. L. Polyansky, M. Rey, M. Rotger, S. W. Sharpe, K. Sung, E. Starikova, S. A. Tashkun, J. V. Auwera, G. Wagner, J. Wilzewski, P. Wcisło, S. Yu, and E. J. Zak, “The HITRAN2016 molecular spectroscopic database,” J. Quant. Spectrosc. Radiat. Transfer 203, 3–69 (2017).
[Crossref]

Bielska, K.

O. L. Polyansky, K. Bielska, M. Ghysels, L. Lodi, N. F. Zobov, J. T. Hodges, and J. Tennyson, “High-accuracy CO2 line intensities determined from theory and experiment,” Phys. Rev. Lett. 114(24), 243001 (2015).
[Crossref]

Birk, M.

I. E. Gordon, L. S. Rothman, C. Hill, R. V. Kochanov, Y. Tan, P. F. Bernath, M. Birk, V. Boudon, A. Campargue, K. V. Chance, B. J. Drouin, J. M. Flaud, R. R. Gamache, J. T. Hodges, D. Jacquemart, V. I. Perevalov, A. Perrin, K. P. Shine, M. A. H. Smith, J. Tennyson, G. C. Toon, H. Tran, V. G. Tyuterev, A. Barbe, A. G. Császár, V. M. Devi, T. Furtenbacher, J. J. Harrison, J. M. Hartmann, A. Jolly, T. J. Johnson, T. Karman, I. Kleiner, A. A. Kyuberis, J. Loos, O. M. Lyulin, S. T. Massie, S. N. Mikhailenko, N. Moazzen-Ahmadi, H. S. P. Müller, O. V. Naumenko, A. V. Nikitin, O. L. Polyansky, M. Rey, M. Rotger, S. W. Sharpe, K. Sung, E. Starikova, S. A. Tashkun, J. V. Auwera, G. Wagner, J. Wilzewski, P. Wcisło, S. Yu, and E. J. Zak, “The HITRAN2016 molecular spectroscopic database,” J. Quant. Spectrosc. Radiat. Transfer 203, 3–69 (2017).
[Crossref]

Bittner, D. N.

D. R. Willey, R. L. Crownover, D. N. Bittner, and F. C. De Lucia, “Very low temperature spectroscopy: The pressure broadening coefficients for CO-He between 4.3 and 1.7 K,” J. Chem. Phys. 89(4), 1923–1928 (1988).
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Boraas, K.

K. Boraas, D. Deboer, Z. Lin, and J. P. Reilly, “High resolution study of methane’s 3ν1 + ν3 vibrational overtone band,” J. Chem. Phys. 100(11), 7916–7927 (1994).
[Crossref]

K. Boraas, D. Deboer, Z. Lin, and J. P. Reilly, “The Stark effect in methane’s 3ν1 + ν3 vibrational overtone band,” J. Chem. Phys. 99(2), 1429–1432 (1993).
[Crossref]

Boudon, V.

I. E. Gordon, L. S. Rothman, C. Hill, R. V. Kochanov, Y. Tan, P. F. Bernath, M. Birk, V. Boudon, A. Campargue, K. V. Chance, B. J. Drouin, J. M. Flaud, R. R. Gamache, J. T. Hodges, D. Jacquemart, V. I. Perevalov, A. Perrin, K. P. Shine, M. A. H. Smith, J. Tennyson, G. C. Toon, H. Tran, V. G. Tyuterev, A. Barbe, A. G. Császár, V. M. Devi, T. Furtenbacher, J. J. Harrison, J. M. Hartmann, A. Jolly, T. J. Johnson, T. Karman, I. Kleiner, A. A. Kyuberis, J. Loos, O. M. Lyulin, S. T. Massie, S. N. Mikhailenko, N. Moazzen-Ahmadi, H. S. P. Müller, O. V. Naumenko, A. V. Nikitin, O. L. Polyansky, M. Rey, M. Rotger, S. W. Sharpe, K. Sung, E. Starikova, S. A. Tashkun, J. V. Auwera, G. Wagner, J. Wilzewski, P. Wcisło, S. Yu, and E. J. Zak, “The HITRAN2016 molecular spectroscopic database,” J. Quant. Spectrosc. Radiat. Transfer 203, 3–69 (2017).
[Crossref]

Brown, L. R.

D. ChrisBenner, V. MalathyDevi, K. Sung, L. R. Brown, C. E. Miller, V. H. Payne, B. J. Drouin, S. Yu, T. J. Crawford, A. W. Mantz, M. A. H. Smith, and R. R. Gamache, “Line parameters including temperature dependences of air- and self-broadened line shapes of 12C16O2: 2.06-μm region,” J. Mol. Spectrosc. 326, 21–47 (2016).
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Campargue, A.

O. Lyulin, S. Béguier, S.-M. Hu, and A. Campargue, “The absorption spectrum of acetylene near 1 μm (9280–10740 cm−1) (I): Line positions,” J. Quant. Spectrosc. Radiat. Transfer 208, 179–187 (2018).
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I. E. Gordon, L. S. Rothman, C. Hill, R. V. Kochanov, Y. Tan, P. F. Bernath, M. Birk, V. Boudon, A. Campargue, K. V. Chance, B. J. Drouin, J. M. Flaud, R. R. Gamache, J. T. Hodges, D. Jacquemart, V. I. Perevalov, A. Perrin, K. P. Shine, M. A. H. Smith, J. Tennyson, G. C. Toon, H. Tran, V. G. Tyuterev, A. Barbe, A. G. Császár, V. M. Devi, T. Furtenbacher, J. J. Harrison, J. M. Hartmann, A. Jolly, T. J. Johnson, T. Karman, I. Kleiner, A. A. Kyuberis, J. Loos, O. M. Lyulin, S. T. Massie, S. N. Mikhailenko, N. Moazzen-Ahmadi, H. S. P. Müller, O. V. Naumenko, A. V. Nikitin, O. L. Polyansky, M. Rey, M. Rotger, S. W. Sharpe, K. Sung, E. Starikova, S. A. Tashkun, J. V. Auwera, G. Wagner, J. Wilzewski, P. Wcisło, S. Yu, and E. J. Zak, “The HITRAN2016 molecular spectroscopic database,” J. Quant. Spectrosc. Radiat. Transfer 203, 3–69 (2017).
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A. Campargue, O. Leshchishina, L. Wang, D. Mondelain, and S. Kassi, “The WKLMC empirical line lists (5852–7919 cm−1) for methane between 80 K and 296 K: ”final” lists for atmospheric and planetary applications,” J. Mol. Spectrosc. 291, 16–22 (2013).
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A. Campargue, O. Leshchishina, L. Wang, D. Mondelain, S. Kassi, and A. V. Nikitin, “Refinements of the WKMC empirical line lists (5852-7919 cm−1) for methane between 80 K and 296 K,” J. Quant. Spectrosc. Radiat. Transfer 113(15), 1855–1873 (2012).
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S. Kassi, B. Gao, D. Romaninia, and A. Campargue, “The near-infrared (1.30-1.70 μm) absorption spectrum of methane down to 77 K,” Phys. Chem. Chem. Phys. 10(30), 4410–4419 (2008).
[Crossref]

A. Campargue, D. Permogorov, and R. Jost, “Intracavity absorption spectroscopy of the third stretching overtone transition of jet cooled methane,” J. Chem. Phys. 102(15), 5910–5916 (1995).
[Crossref]

A. Campargue, M. Chenevier, and F. Stoeckel, “Intracavity-laser-absorption spectroscopy of the visible overtone transition of methane in a supersonically cooled jet,” Chem. Phys. Lett. 183(1-2), 153–157 (1991).
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Cao, H.

J. J. O’Brien and H. Cao, “Absorption spectra and absorption coefficients for methane in the 750–940 nm region obtained by intracavity laser spectroscopy,” J. Quant. Spectrosc. Radiat. Transfer 75(3), 323–350 (2002).
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Chance, K. V.

I. E. Gordon, L. S. Rothman, C. Hill, R. V. Kochanov, Y. Tan, P. F. Bernath, M. Birk, V. Boudon, A. Campargue, K. V. Chance, B. J. Drouin, J. M. Flaud, R. R. Gamache, J. T. Hodges, D. Jacquemart, V. I. Perevalov, A. Perrin, K. P. Shine, M. A. H. Smith, J. Tennyson, G. C. Toon, H. Tran, V. G. Tyuterev, A. Barbe, A. G. Császár, V. M. Devi, T. Furtenbacher, J. J. Harrison, J. M. Hartmann, A. Jolly, T. J. Johnson, T. Karman, I. Kleiner, A. A. Kyuberis, J. Loos, O. M. Lyulin, S. T. Massie, S. N. Mikhailenko, N. Moazzen-Ahmadi, H. S. P. Müller, O. V. Naumenko, A. V. Nikitin, O. L. Polyansky, M. Rey, M. Rotger, S. W. Sharpe, K. Sung, E. Starikova, S. A. Tashkun, J. V. Auwera, G. Wagner, J. Wilzewski, P. Wcisło, S. Yu, and E. J. Zak, “The HITRAN2016 molecular spectroscopic database,” J. Quant. Spectrosc. Radiat. Transfer 203, 3–69 (2017).
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Chenevier, M.

A. Campargue, M. Chenevier, and F. Stoeckel, “Intracavity-laser-absorption spectroscopy of the visible overtone transition of methane in a supersonically cooled jet,” Chem. Phys. Lett. 183(1-2), 153–157 (1991).
[Crossref]

Cheng, C.-F.

ChrisBenner, D.

D. ChrisBenner, V. MalathyDevi, K. Sung, L. R. Brown, C. E. Miller, V. H. Payne, B. J. Drouin, S. Yu, T. J. Crawford, A. W. Mantz, M. A. H. Smith, and R. R. Gamache, “Line parameters including temperature dependences of air- and self-broadened line shapes of 12C16O2: 2.06-μm region,” J. Mol. Spectrosc. 326, 21–47 (2016).
[Crossref]

Crawford, T. J.

D. ChrisBenner, V. MalathyDevi, K. Sung, L. R. Brown, C. E. Miller, V. H. Payne, B. J. Drouin, S. Yu, T. J. Crawford, A. W. Mantz, M. A. H. Smith, and R. R. Gamache, “Line parameters including temperature dependences of air- and self-broadened line shapes of 12C16O2: 2.06-μm region,” J. Mol. Spectrosc. 326, 21–47 (2016).
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Crownover, R. L.

D. R. Willey, R. L. Crownover, D. N. Bittner, and F. C. De Lucia, “Very low temperature spectroscopy: The pressure broadening coefficients for CO-He between 4.3 and 1.7 K,” J. Chem. Phys. 89(4), 1923–1928 (1988).
[Crossref]

Császár, A. G.

I. E. Gordon, L. S. Rothman, C. Hill, R. V. Kochanov, Y. Tan, P. F. Bernath, M. Birk, V. Boudon, A. Campargue, K. V. Chance, B. J. Drouin, J. M. Flaud, R. R. Gamache, J. T. Hodges, D. Jacquemart, V. I. Perevalov, A. Perrin, K. P. Shine, M. A. H. Smith, J. Tennyson, G. C. Toon, H. Tran, V. G. Tyuterev, A. Barbe, A. G. Császár, V. M. Devi, T. Furtenbacher, J. J. Harrison, J. M. Hartmann, A. Jolly, T. J. Johnson, T. Karman, I. Kleiner, A. A. Kyuberis, J. Loos, O. M. Lyulin, S. T. Massie, S. N. Mikhailenko, N. Moazzen-Ahmadi, H. S. P. Müller, O. V. Naumenko, A. V. Nikitin, O. L. Polyansky, M. Rey, M. Rotger, S. W. Sharpe, K. Sung, E. Starikova, S. A. Tashkun, J. V. Auwera, G. Wagner, J. Wilzewski, P. Wcisło, S. Yu, and E. J. Zak, “The HITRAN2016 molecular spectroscopic database,” J. Quant. Spectrosc. Radiat. Transfer 203, 3–69 (2017).
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de Bergh, C.

G. Pierre, J.-C. Hilico, C. de Bergh, and J.-P. Maillard, “The region of the 3ν3 band of methane,” J. Mol. Spectrosc. 82(2), 379–393 (1980).
[Crossref]

De Lucia, F. C.

D. R. Willey, R. L. Crownover, D. N. Bittner, and F. C. De Lucia, “Very low temperature spectroscopy: The pressure broadening coefficients for CO-He between 4.3 and 1.7 K,” J. Chem. Phys. 89(4), 1923–1928 (1988).
[Crossref]

Deboer, D.

K. Boraas, D. Deboer, Z. Lin, and J. P. Reilly, “High resolution study of methane’s 3ν1 + ν3 vibrational overtone band,” J. Chem. Phys. 100(11), 7916–7927 (1994).
[Crossref]

K. Boraas, D. Deboer, Z. Lin, and J. P. Reilly, “The Stark effect in methane’s 3ν1 + ν3 vibrational overtone band,” J. Chem. Phys. 99(2), 1429–1432 (1993).
[Crossref]

Devi, V. M.

I. E. Gordon, L. S. Rothman, C. Hill, R. V. Kochanov, Y. Tan, P. F. Bernath, M. Birk, V. Boudon, A. Campargue, K. V. Chance, B. J. Drouin, J. M. Flaud, R. R. Gamache, J. T. Hodges, D. Jacquemart, V. I. Perevalov, A. Perrin, K. P. Shine, M. A. H. Smith, J. Tennyson, G. C. Toon, H. Tran, V. G. Tyuterev, A. Barbe, A. G. Császár, V. M. Devi, T. Furtenbacher, J. J. Harrison, J. M. Hartmann, A. Jolly, T. J. Johnson, T. Karman, I. Kleiner, A. A. Kyuberis, J. Loos, O. M. Lyulin, S. T. Massie, S. N. Mikhailenko, N. Moazzen-Ahmadi, H. S. P. Müller, O. V. Naumenko, A. V. Nikitin, O. L. Polyansky, M. Rey, M. Rotger, S. W. Sharpe, K. Sung, E. Starikova, S. A. Tashkun, J. V. Auwera, G. Wagner, J. Wilzewski, P. Wcisło, S. Yu, and E. J. Zak, “The HITRAN2016 molecular spectroscopic database,” J. Quant. Spectrosc. Radiat. Transfer 203, 3–69 (2017).
[Crossref]

Drouin, B. J.

I. E. Gordon, L. S. Rothman, C. Hill, R. V. Kochanov, Y. Tan, P. F. Bernath, M. Birk, V. Boudon, A. Campargue, K. V. Chance, B. J. Drouin, J. M. Flaud, R. R. Gamache, J. T. Hodges, D. Jacquemart, V. I. Perevalov, A. Perrin, K. P. Shine, M. A. H. Smith, J. Tennyson, G. C. Toon, H. Tran, V. G. Tyuterev, A. Barbe, A. G. Császár, V. M. Devi, T. Furtenbacher, J. J. Harrison, J. M. Hartmann, A. Jolly, T. J. Johnson, T. Karman, I. Kleiner, A. A. Kyuberis, J. Loos, O. M. Lyulin, S. T. Massie, S. N. Mikhailenko, N. Moazzen-Ahmadi, H. S. P. Müller, O. V. Naumenko, A. V. Nikitin, O. L. Polyansky, M. Rey, M. Rotger, S. W. Sharpe, K. Sung, E. Starikova, S. A. Tashkun, J. V. Auwera, G. Wagner, J. Wilzewski, P. Wcisło, S. Yu, and E. J. Zak, “The HITRAN2016 molecular spectroscopic database,” J. Quant. Spectrosc. Radiat. Transfer 203, 3–69 (2017).
[Crossref]

D. ChrisBenner, V. MalathyDevi, K. Sung, L. R. Brown, C. E. Miller, V. H. Payne, B. J. Drouin, S. Yu, T. J. Crawford, A. W. Mantz, M. A. H. Smith, and R. R. Gamache, “Line parameters including temperature dependences of air- and self-broadened line shapes of 12C16O2: 2.06-μm region,” J. Mol. Spectrosc. 326, 21–47 (2016).
[Crossref]

Feng, X. J.

Flaud, J. M.

I. E. Gordon, L. S. Rothman, C. Hill, R. V. Kochanov, Y. Tan, P. F. Bernath, M. Birk, V. Boudon, A. Campargue, K. V. Chance, B. J. Drouin, J. M. Flaud, R. R. Gamache, J. T. Hodges, D. Jacquemart, V. I. Perevalov, A. Perrin, K. P. Shine, M. A. H. Smith, J. Tennyson, G. C. Toon, H. Tran, V. G. Tyuterev, A. Barbe, A. G. Császár, V. M. Devi, T. Furtenbacher, J. J. Harrison, J. M. Hartmann, A. Jolly, T. J. Johnson, T. Karman, I. Kleiner, A. A. Kyuberis, J. Loos, O. M. Lyulin, S. T. Massie, S. N. Mikhailenko, N. Moazzen-Ahmadi, H. S. P. Müller, O. V. Naumenko, A. V. Nikitin, O. L. Polyansky, M. Rey, M. Rotger, S. W. Sharpe, K. Sung, E. Starikova, S. A. Tashkun, J. V. Auwera, G. Wagner, J. Wilzewski, P. Wcisło, S. Yu, and E. J. Zak, “The HITRAN2016 molecular spectroscopic database,” J. Quant. Spectrosc. Radiat. Transfer 203, 3–69 (2017).
[Crossref]

Fleisher, A. J.

A. J. Fleisher, E. M. Adkins, Z. D. Reed, H. Yi, D. A. Long, H. M. Fleurbaey, and J. T. Hodges, “Twenty-five-fold reduction in measurement uncertainty for a molecular line intensity,” Phys. Rev. Lett. 123(4), 043001 (2019).
[Crossref]

M. Ghysels, Q. Liu, A. J. Fleisher, and J. T. Hodges, “A variable-temperature cavity ring-down spectrometer with application to line shape analysis of CO2 spectra in the 1600 nm region,” Appl. Phys. B 123(4), 124 (2017).
[Crossref]

Fleurbaey, H. M.

A. J. Fleisher, E. M. Adkins, Z. D. Reed, H. Yi, D. A. Long, H. M. Fleurbaey, and J. T. Hodges, “Twenty-five-fold reduction in measurement uncertainty for a molecular line intensity,” Phys. Rev. Lett. 123(4), 043001 (2019).
[Crossref]

Furtenbacher, T.

I. E. Gordon, L. S. Rothman, C. Hill, R. V. Kochanov, Y. Tan, P. F. Bernath, M. Birk, V. Boudon, A. Campargue, K. V. Chance, B. J. Drouin, J. M. Flaud, R. R. Gamache, J. T. Hodges, D. Jacquemart, V. I. Perevalov, A. Perrin, K. P. Shine, M. A. H. Smith, J. Tennyson, G. C. Toon, H. Tran, V. G. Tyuterev, A. Barbe, A. G. Császár, V. M. Devi, T. Furtenbacher, J. J. Harrison, J. M. Hartmann, A. Jolly, T. J. Johnson, T. Karman, I. Kleiner, A. A. Kyuberis, J. Loos, O. M. Lyulin, S. T. Massie, S. N. Mikhailenko, N. Moazzen-Ahmadi, H. S. P. Müller, O. V. Naumenko, A. V. Nikitin, O. L. Polyansky, M. Rey, M. Rotger, S. W. Sharpe, K. Sung, E. Starikova, S. A. Tashkun, J. V. Auwera, G. Wagner, J. Wilzewski, P. Wcisło, S. Yu, and E. J. Zak, “The HITRAN2016 molecular spectroscopic database,” J. Quant. Spectrosc. Radiat. Transfer 203, 3–69 (2017).
[Crossref]

Gamache, R. R.

I. E. Gordon, L. S. Rothman, C. Hill, R. V. Kochanov, Y. Tan, P. F. Bernath, M. Birk, V. Boudon, A. Campargue, K. V. Chance, B. J. Drouin, J. M. Flaud, R. R. Gamache, J. T. Hodges, D. Jacquemart, V. I. Perevalov, A. Perrin, K. P. Shine, M. A. H. Smith, J. Tennyson, G. C. Toon, H. Tran, V. G. Tyuterev, A. Barbe, A. G. Császár, V. M. Devi, T. Furtenbacher, J. J. Harrison, J. M. Hartmann, A. Jolly, T. J. Johnson, T. Karman, I. Kleiner, A. A. Kyuberis, J. Loos, O. M. Lyulin, S. T. Massie, S. N. Mikhailenko, N. Moazzen-Ahmadi, H. S. P. Müller, O. V. Naumenko, A. V. Nikitin, O. L. Polyansky, M. Rey, M. Rotger, S. W. Sharpe, K. Sung, E. Starikova, S. A. Tashkun, J. V. Auwera, G. Wagner, J. Wilzewski, P. Wcisło, S. Yu, and E. J. Zak, “The HITRAN2016 molecular spectroscopic database,” J. Quant. Spectrosc. Radiat. Transfer 203, 3–69 (2017).
[Crossref]

D. ChrisBenner, V. MalathyDevi, K. Sung, L. R. Brown, C. E. Miller, V. H. Payne, B. J. Drouin, S. Yu, T. J. Crawford, A. W. Mantz, M. A. H. Smith, and R. R. Gamache, “Line parameters including temperature dependences of air- and self-broadened line shapes of 12C16O2: 2.06-μm region,” J. Mol. Spectrosc. 326, 21–47 (2016).
[Crossref]

M. Šimečková, D. Jacquemart, L. S. Rothmana, R. R. Gamache, and A. Goldman, “Einstein A-coefficients and statistical weights for molecular absorption transitions in the HITRAN database,” J. Quant. Spectrosc. Radiat. Transfer 98(1), 130–155 (2006).
[Crossref]

Gao, B.

S. Kassi, B. Gao, D. Romaninia, and A. Campargue, “The near-infrared (1.30-1.70 μm) absorption spectrum of methane down to 77 K,” Phys. Chem. Chem. Phys. 10(30), 4410–4419 (2008).
[Crossref]

Ghysels, M.

M. Ghysels, Q. Liu, A. J. Fleisher, and J. T. Hodges, “A variable-temperature cavity ring-down spectrometer with application to line shape analysis of CO2 spectra in the 1600 nm region,” Appl. Phys. B 123(4), 124 (2017).
[Crossref]

O. L. Polyansky, K. Bielska, M. Ghysels, L. Lodi, N. F. Zobov, J. T. Hodges, and J. Tennyson, “High-accuracy CO2 line intensities determined from theory and experiment,” Phys. Rev. Lett. 114(24), 243001 (2015).
[Crossref]

Goldman, A.

M. Šimečková, D. Jacquemart, L. S. Rothmana, R. R. Gamache, and A. Goldman, “Einstein A-coefficients and statistical weights for molecular absorption transitions in the HITRAN database,” J. Quant. Spectrosc. Radiat. Transfer 98(1), 130–155 (2006).
[Crossref]

Gordon, I. E.

I. E. Gordon, L. S. Rothman, C. Hill, R. V. Kochanov, Y. Tan, P. F. Bernath, M. Birk, V. Boudon, A. Campargue, K. V. Chance, B. J. Drouin, J. M. Flaud, R. R. Gamache, J. T. Hodges, D. Jacquemart, V. I. Perevalov, A. Perrin, K. P. Shine, M. A. H. Smith, J. Tennyson, G. C. Toon, H. Tran, V. G. Tyuterev, A. Barbe, A. G. Császár, V. M. Devi, T. Furtenbacher, J. J. Harrison, J. M. Hartmann, A. Jolly, T. J. Johnson, T. Karman, I. Kleiner, A. A. Kyuberis, J. Loos, O. M. Lyulin, S. T. Massie, S. N. Mikhailenko, N. Moazzen-Ahmadi, H. S. P. Müller, O. V. Naumenko, A. V. Nikitin, O. L. Polyansky, M. Rey, M. Rotger, S. W. Sharpe, K. Sung, E. Starikova, S. A. Tashkun, J. V. Auwera, G. Wagner, J. Wilzewski, P. Wcisło, S. Yu, and E. J. Zak, “The HITRAN2016 molecular spectroscopic database,” J. Quant. Spectrosc. Radiat. Transfer 203, 3–69 (2017).
[Crossref]

Harrison, J. J.

I. E. Gordon, L. S. Rothman, C. Hill, R. V. Kochanov, Y. Tan, P. F. Bernath, M. Birk, V. Boudon, A. Campargue, K. V. Chance, B. J. Drouin, J. M. Flaud, R. R. Gamache, J. T. Hodges, D. Jacquemart, V. I. Perevalov, A. Perrin, K. P. Shine, M. A. H. Smith, J. Tennyson, G. C. Toon, H. Tran, V. G. Tyuterev, A. Barbe, A. G. Császár, V. M. Devi, T. Furtenbacher, J. J. Harrison, J. M. Hartmann, A. Jolly, T. J. Johnson, T. Karman, I. Kleiner, A. A. Kyuberis, J. Loos, O. M. Lyulin, S. T. Massie, S. N. Mikhailenko, N. Moazzen-Ahmadi, H. S. P. Müller, O. V. Naumenko, A. V. Nikitin, O. L. Polyansky, M. Rey, M. Rotger, S. W. Sharpe, K. Sung, E. Starikova, S. A. Tashkun, J. V. Auwera, G. Wagner, J. Wilzewski, P. Wcisło, S. Yu, and E. J. Zak, “The HITRAN2016 molecular spectroscopic database,” J. Quant. Spectrosc. Radiat. Transfer 203, 3–69 (2017).
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Hartmann, J. M.

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G. J. SchererKevin, K. Lehmann, and W. Klemperer, “The high-resolution visible overtone spectrum of CH4 and CD3H at 77 K,” J. Chem. Phys. 81(12), 5319–5325 (1984).
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A. Campargue, O. Leshchishina, L. Wang, D. Mondelain, and S. Kassi, “The WKLMC empirical line lists (5852–7919 cm−1) for methane between 80 K and 296 K: ”final” lists for atmospheric and planetary applications,” J. Mol. Spectrosc. 291, 16–22 (2013).
[Crossref]

A. Campargue, O. Leshchishina, L. Wang, D. Mondelain, S. Kassi, and A. V. Nikitin, “Refinements of the WKMC empirical line lists (5852-7919 cm−1) for methane between 80 K and 296 K,” J. Quant. Spectrosc. Radiat. Transfer 113(15), 1855–1873 (2012).
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C. Moehnke, E. K. Lewis, A. Lopez-Calvo, and C. Manzanares, “Phase shift cavity ring down at low temperatures: Vibration-rotation overtone absorption of H-D (Δν = 4) at 297 and 105 K,” Chem. Phys. Lett. 418(4-6), 576–580 (2006).
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E. K. Lewis, C. Moehnke, J. Navea, and C. Manzanares, “Low temperature cell for cavity ring down absorption studies,” Rev. Sci. Instrum. 77(7), 073107 (2006).
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Lin, H.

Lin, Z.

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N. H. Ngo, D. Lisak, H. Tran, and J. M. Hartmann, “An isolated line-shape model to go beyond the Voigt profile in spectroscopic databases and radiative transfer codes,” J. Quant. Spectrosc. Radiat. Transfer 129, 89–100 (2013).
[Crossref]

Liu, A.-W.

L.-G. Tao, T.-P. Hua, Y. R. Sun, J. Wang, A.-W. Liu, and S.-M. Hu, “Frequency metrology of the acetylene lines near 789 nm from Lamb-dip measurements,” J. Quant. Spectrosc. Radiat. Transfer 210, 111–115 (2018).
[Crossref]

Y. Tan, S. N. Mikhailenko, J. Wang, A.-W. Liu, X.-Q. Zhao, G.-L. Liu, and S.-M. Hu, “CRDS absorption spectrum of 17O enriched water vapor in the 12,277–12,894 cm−1 range,” J. Quant. Spectrosc. Radiat. Transfer 221, 233–242 (2018).
[Crossref]

L.-G. Tao, A.-W. Liu, K. Pachucki, J. Komasa, Y. R. Sun, J. Wang, and S.-M. Hu, “Toward a determination of the Proton-electron mass ratio from the Lamb-dip measurement of HD,” Phys. Rev. Lett. 120(15), 153001 (2018).
[Crossref]

J. Wang, Y. R. Sun, L.-G. Tao, A.-W. Liu, and S.-M. Hu, “Communication: molecular near-infrared transitions determined with sub-kHz accuracy,” J. Chem. Phys. 147(9), 091103 (2017).
[Crossref]

C.-F. Cheng, Y. R. Sun, H. Pan, Y. Lu, X.-F. Li, J. Wang, A.-W. Liu, and S.-M. Hu, “Cavity ring-down spectroscopy of Doppler-broadened absorption line with sub-MHz absolute frequency accuracy,” Opt. Express 20(9), 9956–9961 (2012).
[Crossref]

Liu, G.-L.

Y. Tan, S. N. Mikhailenko, J. Wang, A.-W. Liu, X.-Q. Zhao, G.-L. Liu, and S.-M. Hu, “CRDS absorption spectrum of 17O enriched water vapor in the 12,277–12,894 cm−1 range,” J. Quant. Spectrosc. Radiat. Transfer 221, 233–242 (2018).
[Crossref]

Liu, Q.

M. Ghysels, Q. Liu, A. J. Fleisher, and J. T. Hodges, “A variable-temperature cavity ring-down spectrometer with application to line shape analysis of CO2 spectra in the 1600 nm region,” Appl. Phys. B 123(4), 124 (2017).
[Crossref]

Lodi, L.

O. L. Polyansky, K. Bielska, M. Ghysels, L. Lodi, N. F. Zobov, J. T. Hodges, and J. Tennyson, “High-accuracy CO2 line intensities determined from theory and experiment,” Phys. Rev. Lett. 114(24), 243001 (2015).
[Crossref]

Long, D. A.

A. J. Fleisher, E. M. Adkins, Z. D. Reed, H. Yi, D. A. Long, H. M. Fleurbaey, and J. T. Hodges, “Twenty-five-fold reduction in measurement uncertainty for a molecular line intensity,” Phys. Rev. Lett. 123(4), 043001 (2019).
[Crossref]

Loos, J.

I. E. Gordon, L. S. Rothman, C. Hill, R. V. Kochanov, Y. Tan, P. F. Bernath, M. Birk, V. Boudon, A. Campargue, K. V. Chance, B. J. Drouin, J. M. Flaud, R. R. Gamache, J. T. Hodges, D. Jacquemart, V. I. Perevalov, A. Perrin, K. P. Shine, M. A. H. Smith, J. Tennyson, G. C. Toon, H. Tran, V. G. Tyuterev, A. Barbe, A. G. Császár, V. M. Devi, T. Furtenbacher, J. J. Harrison, J. M. Hartmann, A. Jolly, T. J. Johnson, T. Karman, I. Kleiner, A. A. Kyuberis, J. Loos, O. M. Lyulin, S. T. Massie, S. N. Mikhailenko, N. Moazzen-Ahmadi, H. S. P. Müller, O. V. Naumenko, A. V. Nikitin, O. L. Polyansky, M. Rey, M. Rotger, S. W. Sharpe, K. Sung, E. Starikova, S. A. Tashkun, J. V. Auwera, G. Wagner, J. Wilzewski, P. Wcisło, S. Yu, and E. J. Zak, “The HITRAN2016 molecular spectroscopic database,” J. Quant. Spectrosc. Radiat. Transfer 203, 3–69 (2017).
[Crossref]

Lopez-Calvo, A.

C. Moehnke, E. K. Lewis, A. Lopez-Calvo, and C. Manzanares, “Phase shift cavity ring down at low temperatures: Vibration-rotation overtone absorption of H-D (Δν = 4) at 297 and 105 K,” Chem. Phys. Lett. 418(4-6), 576–580 (2006).
[Crossref]

Lu, Y.

Lyulin, O.

O. Lyulin, S. Béguier, S.-M. Hu, and A. Campargue, “The absorption spectrum of acetylene near 1 μm (9280–10740 cm−1) (I): Line positions,” J. Quant. Spectrosc. Radiat. Transfer 208, 179–187 (2018).
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Figures (5)

Fig. 1.
Fig. 1. (a) Scheme of the experimental setup. (b) Configuration of the optical cavity and vacuum chamber. Abbreviations: ECDL: external cavity diode laser; PDH Lock: Pound-Drever-Hall Lock; AOM: acousto-optic modulator; EOM: electro-optic modulator; $\lambda$/2: half waveplate; G: Glan-Taylor prism; DAQ: data acquisition system for CRDS signals; PZT: piezoelectric actuator.
Fig. 2.
Fig. 2. Allan deviations of (a) The beat frequency between the laser and the OFC. (b) Limit of detection (in noise-equivalent absorption coefficient) of the CRDS spectrometer. The data were collected at the gas cell temperature of 46 K when the cryogenic cooler and vacuum pumps were on. The repetition rate of the ring-down events was 1 kHz.
Fig. 3.
Fig. 3. Doppler broadened R(0) line in the (2-0) band of HD at 46 K.
Fig. 4.
Fig. 4. Spectra of methane recorded at different temperatures. The upper part contains the experimental (red dots) and simulated (black lines) spectra. Annotations on the right side mark the magnification used to make the spectra visually comparable. Fitting residuals of the spectra recorded around 110 K are shown as black points beneath the spectra. In the lower part, colored bars indicate line positions obtained from different sources: this work (black bars), TheoReTS [34] (296 K, green bars and 80 K, purple bars), and WKLMC [28] (80 K, red bars and 296 K, blue bars). Note that the cut-off intensity of $1\times 10^{-25}$ cm/molecule was applied to the data from TheoReTS [34].
Fig. 5.
Fig. 5. A few examples of the relationship between the intensity ratio between a pair of lines and the inverse of the temperature.

Tables (1)

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Table 1. Lower state energy difference between the transitions (in cm 1 )a.

Equations (1)

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S i S j = K a e x p ( h c ( E j E i ) k B T ) , ln S i S j = ln K a + h c ( E j E i ) k B 1 T ,

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