Darby-Lewis line list for BeH in its X and A electronic states using the Duo program.
9Be-1H__Darby-Lewis.pf
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Partition function of (9Be)(1H) generated using the Darby-Lewis line list
References
Darby-Lewis, D., Tennyson, J., Lawson, K. D., Yurchenko, S. N., Stamp, M. F., Shaw, A., Brezinsek, S., JET Contributors, "Synthetic spectra of BeH, BeD and BeT for emission modeling in JET plasmas", J. Phys. B At. Mol. Opt. Phys.51, 185701 (2018). [link to article][18DaTeLa.BeH]
Darby-Lewis: opacity
Darby-Lewis line list for BeH in its X and A electronic states using the Duo program.
Chubb, K. L., Rocchetto, M., Yurchenko, S. N., Min, M., Waldmann, I., Barstow, J. K., Molliere, P., Al-Refaie, A. F, Phillips, M. W., Tennyson, J., "The ExoMolOP database: Cross sections and k-tables for molecules of interest in high-temperature exoplanet atmospheres", Astronomy and Astrophysics646, A21 (2020). [link to article][20ChRoYu.]
Darby-Lewis: Specific heat - heat capacity
Darby-Lewis line list for BeH in its X and A electronic states using the Duo program.
9Be-1H__Darby-Lewis.cp Heat capacity (specific heat) Cp of (9Be)(1H) in 200 K intervals to 5000 K
References
Darby-Lewis, D., Tennyson, J., Lawson, K. D., Yurchenko, S. N., Stamp, M. F., Shaw, A., Brezinsek, S., JET Contributors, "Synthetic spectra of BeH, BeD and BeT for emission modeling in JET plasmas", J. Phys. B At. Mol. Opt. Phys.51, 185701 (2018). [link to article][18DaTeLa.BeH]
Darby-Lewis: broadening coefficients
Darby-Lewis line list for BeH in its X and A electronic states using the Duo program.
9Be-1H__Ar.broad BeH - Ar pressure broadening parameters (main isotopologue).
9Be-1H__air.broad BeH - air pressure broadening parameters (main isotopologue).
References
Buldyreva, J., Yurchenko, S.N., Tennyson, J., "Simple semi-classical model of pressure-broadened infrared/microwave linewidths in the temperature range 200-3000 K.", RAS Techniques and Instruments1, 43-47 (2022). [link to article]
Guest, E.R., Tennyson, J., Yurchenko, S.N., "Modelling the Rotational Dependence of Line Broadening using Machine Learning", Journal of Molecular Spectroscopy (2024).