AI-3000K Infrared line list for hot CO2

• Published in: Journal of molecular spectroscopy Vol. 392; p. 111748
• Main Authors: Huang (黄新川), Xinchuan, Freedman, Richard S., Tashkun, Sergey, Schwenke, David W., Lee, Timothy J.
• Format: Journal Article
• Language: English
• Published: Ames Research Center Elsevier Inc 01.02.2023; Elsevier
• Subjects: Astrophysics; Carbon Dioxide; CO2; High temperature; IR intensity; Potential energy surface and dipole moment surface; Rovibrational IR line list; Rovibrational IR line list; HITRAN; IR intensity; CO2; Potential energy surface and dipole moment surface; DMS; High temperature; CDSD; HITEMP; Carbon Dioxide; PES; Dipole Moment Surface (dms); Ai-3000k; Infrared; Room Temperature Ir Line List (ames-2021 296k); Infrared Line List; Potential Energy Surface (pes); Spectra Analysis; Hot Co2
• ISSN: 0022-2852; 1096-083X
• DOI: 10.1016/j.jms.2023.111748

[Display omitted] •Hot CO2 IR line list covering 0 – 20,000 cm−1 and up to 3000 K.•CDSD2019-based PES refinement and one of the best CO2 DMS are adopted.•Using CDSD2019 energy levels (J < 150 and E' < 24,000 cm−1) for more accurate line positions.•Using the more accurate A21 of Ames-2021 296K IR line list for E' < 15,000 cm−1 transitions.•Better overall agreement with Shock Tube experiments up to 2000 K, compared to HITEMP and UCL-4000. AI-3000K is a semi-empirical IR line list constructed for hot CO2 spectra analysis and simulation up to 3000 – 4000 K. Compared to previously published Ames-1000K and UCL-4000, it represents a major upgrade, utilizing a new algorithm for optimization and including the latest improvements in potential energy surface (PES), dipole moment surface (DMS), and room temperature IR line list (Ames-2021 296K). To maximize the success of introducing experimental based accurate line positions, a new PES (X01d) was refined with respect to >800 selected CDSD2019 [Tashkun et al. JQSRT (2019) 228, 124] energy levels in the range of 0 – 24,000 cm−1, with σrms = 0.5 – 0.7 cm−1. Most differences between the X01d PES based levels and CDSD2019 energies are within ± 2 cm−1. A new DMS is fitted from extrapolated CCSD(T)/aug-cc-pV(T,Q,5)Z dipole calculations, with σrms = 5.1 × 10−6 au for 11,155 geometries up to 40,000 cm−1, denoted Ames-2021–40K. Compared to the best available Ames-2021 DMS and room temperature IR line list [Huang et al J. Phys. Chem. A (2022) 126, 5940], the relative intensity differences are expected to be ∼ 1 ‰. The line position accuracy of ''X01d + Ames-2021–40K'' IR line list is significantly improved by adopting CDSD2019 energy levels up to 24,000 cm−1 (J ≤ 150). The Einstein A21 coefficients for E' < 15,000 cm−1 transitions are replaced by more accurate values from the Ames-2021 296K IR line list. In short, the AI-3000K is the X01d PES and Ames-2021–40K DMS based line list enhanced with the A21 of Ames-2021 296K line list and CDSD energy levels. It provides continuous coverage from 0 to 20,000 cm−1 for the four most abundant isotopologues: 12C16O2 (626), 13C16O2 (636), 16O12C18O (628), and 16O12C17O (627). The impacts of isotopologue and E'/E'' cutoffs have been examined. Intensity convergence (not accuracy) of AI-3000K line list is quantitatively estimated in 1 cm−1 bins. It is better than 99% in the whole range of 0 – 20,000 (or 10,000) cm−1 at 1000 K (or 2000 K), or better than 90% in the whole range of 0 – 15,000 (or 9000) cm−1 at 2000 K (or 3000 K), respectively. Convergence beyond 3000 K will require a new PES and DMS for E' > 40,000 cm−1. The AI-3000K and HITEMP based IR simulations are compared to high resolution shock tube experiments for CO2-Ar mixture up to 2000 K. With line position accuracy comparable to that of HITEMP, AI-3000K IR line list yields better agreements at more frequencies. Potential sources of discrepancies with experiment are discussed.