Internal partition functions and thermodynamic properties of high-temperature Jupiter-atmosphere species from 50K to 50,000K

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The present report represents the second part of a study on thermodynamic properties of systems important in the space research field. The first part of this study concerned with the calculation of high-temperature thermodynamic properties of Mars-atmosphere components, the second one is about the thermodynamic properties of Jupiter-atmosphere components (H2, H2+, H3+, H+, H-, He, He+, He2+, e-). Also in this case we adopt a two parts division: in the first one, theoretical aspects of the calculation are described focusing our attention on some details, while the second provides tables of spectroscopic data used in the calculation and thermodynamic properties in the temperature range from 50 K to 50000 K at P=1 bar. All results are presented in SI units. Finally, fitting coefficients for nondimensional specific heat are included.

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