Theoretical Study of the Rotational Structure of the c4′1Σu + (6)–X1Σg +(0–9) Absorption Bands of N2

Theoretical Study of the Rotational Structure of the c4′1Σu + (6)–X1Σg +(0–9) Absorption Bands of N2

We have theoretically determined the absorption oscillator strengths and wavenumbers for rotationally resolved transitions of the c4′1Σu + (6)-X1Σg +(0–9) bands of N2, which are relevant to analyze the spectra of planetary atmospheres. The Molecular Quantum Defect Orbital method has been used in our...

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Veröffentlicht in:The Astrophysical journal 2021-12, Vol.922 (2)
Hauptverfasser: Velasco, A. M., Alonso, J. L., Redondo, P., Lavín, C.
Format: Artikel
Sprache:eng
Schlagworte:
Absorption
Absorption bands
Absorption spectra
Astrophysics
Band theory
Banded structure
Line intensities
Mathematical analysis
Molecular spectroscopy
Oscillator strengths
Planetary atmospheres
Radiative processes
Rydberg states
Valence
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Zusammenfassung:We have theoretically determined the absorption oscillator strengths and wavenumbers for rotationally resolved transitions of the c4′1Σu + (6)-X1Σg +(0–9) bands of N2, which are relevant to analyze the spectra of planetary atmospheres. The Molecular Quantum Defect Orbital method has been used in our calculations. The interaction between the c4′1Σu + (6) Rydberg state and the b′1Σu + valence states has been considered using an adequate rovibronic energy matrix. In addition, we have calculated the lifetimes of the rotational levels of the c4′1Σu + (6) state. We hope that the reported data, most of them for the first time, can be useful in the interpretation of planetary atmospheres where N2 is present.
ISSN:0004-637X
1538-4357
DOI:10.3847/1538-4357/ac2fa3