Ma et al. 1999

Ma, Q., R.H. Tipping, C. Boulet, and J. Bouanich, 1999: Theoretical far-wing line shape and absorption for high-temperature CO₂. Appl. Opt., 38, 599-604.

Theoretical results for the far-wing line shapes and corresponding absorption coefficients in the high-frequency wing of the ν3 fundamental band of self-broadened CO₂ are presented for a number of temperatures between 218 and 751 K. These first-principles calculations are made assuming binary collisions within the framework of a quasi-static theory with a more accurate interaction potential than in previous calculations. The theoretical results are compared with existing laboratory data and are in good agreement for all the temperatures considered.

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Ma, Q., Tipping, R.H., Boulet, C., and Bouanich, J.: Theoretical far-wing line shape and absorption for high-temperature CO₂, Appl. Opt., 38, 599-604, 1999.

Ma, Q., R.H. Tipping, C. Boulet, and J. Bouanich (1999), Theoretical far-wing line shape and absorption for high-temperature CO₂, Appl. Opt., 38, 599-604.

Ma, Q., R.H. Tipping, C. Boulet, and J. Bouanich, 1999: Theoretical far-wing line shape and absorption for high-temperature CO₂. Appl. Opt., 38, 599-604.

Ma, Q., Tipping, R.H., Boulet, C., & Bouanich, J. 1999, Appl. Opt., 38, 599.

Ma Q, Tipping RH, Boulet C, Bouanich J. Theoretical far-wing line shape and absorption for high-temperature CO₂, Appl Opt 1999;38:599-604.

Q. Ma, R.H. Tipping, C. Boulet, J. Bouanich, Appl. Opt. 38, 599-604 (1999).