What question did this study set out to answer?

To present a new spectroscopic model for the photodissociation and photoabsorption of the NH radical.

April 22, 2026Open Access

ExoMol photodissociation cross sections – III. Temperature-dependent photodissociation and photoabsorption spectra for NH

Key Points

To present a new spectroscopic model for the photodissociation and photoabsorption of the NH radical.
Developed the 2kNigHt spectroscopic model for NH
Computed a bound-bound line list for NH isotopologues
Analyzed cross sections and photolysis rates across various temperatures and radiation fields.
New photoabsorption and photodissociation cross sections for NH were determined
Data covers wavelengths beyond the hydrogen Lyα line at temperatures up to 10,000 K
Results are accessible in the ExoMol and ExoPhoto databases.

Abstract

Abstract The photoabsorption of the imidogen (NH) radical is important in various astronomical and industrial processes. In particular, its photodissociation in the ultraviolet region is crucial for correct chemical modelling and dynamics. An updated spectroscopic model, named 2kNigHt, is presented for the 12 lowest electronic states of NH. This model is used to compute a new bound-bound line list up to 50 000 cm−1 for the four 14N1H, 14N2H, 15N1H, and 15N2H isotopologues. Temperature-dependent photoabsorption, continuum photoabsorption, and photodissociation cross sections, as well as associated photolysis rates under several important radiation fields, are computed. These cross sections cover wavelengths longer than the hydrogen Lyα line for temperatures up to 10 000 K. All results are made available in the ExoMol and ExoPhoto databases.

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Cite This Study

Perri et al. (Sat,) studied this question.

synapsesocial.com/papers/69e866416e0dea528ddeaaf9 https://doi.org/https://doi.org/10.1093/mnras/stag744

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