The opacity due to photodissociation of 24MgH in the atmospheres of cool stars is investigated. The lowest two electronic transitions A 2Π ← X 2Σ+ and B' 2Σ+ ← X 2Σ+ are considered, where the cross sections for the latter were published previously (Weck, Stancil, & Kirby) and the former are presented in this work. Model atmospheres calculated with the PHOENIX code are used to investigate the effect of the photodissociation opacity on spectra of cool stars. The A 2Π ← X 2Σ+ photodissociation cross sections are obtained using a combination of ab initio and experimentally derived potential curves and dipole transition moments. Partial cross sections have been evaluated over the accessible wavelength range 1770- 4560 ? for all rotational transitions from the vibrational levels v'' = 0-11. Assuming a Boltzmann distribution of the rovibrational levels of the X 2Σ+ state, LTE photodissociation cross sections are presented for temperatures between 1000 and 5000 K. Shape resonances, arising from rotational predissociation of quasi-bound levels of the A 2Π state near threshold, characterize the LTE photodissociation cross sections. A sum rule is proposed as a check on the accuracy of the photodissociation calculations.
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