Computing photodissociation cross sections and quasi-continuum properties of the NH radical

Tereza Uhlíková; Sergei N. Yurchenko; Armando N. Perri; Jonathan Tennyson; Gap Sue Kim

doi:10.1063/5.0262447

Computing photodissociation cross sections and quasi-continuum properties of the NH radical

Tereza Uhlíková, Sergei N. Yurchenko, Armando N. Perri, Jonathan Tennyson, Gap Sue Kim

Dharma College

Research output: Contribution to journal › Article › peer-review

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Abstract

Photodissociation cross sections of NH for 250 > λ > 100 nm are studied using (i) the recently reported spectroscopic model of the five lowest electronic states of NH, (ii) a new set of ab initio potential energy, (transition) dipole moment, spin-orbit, and electronic angular momentum curves covering the region up to 100 000 cm⁻¹, and (iii) the recently suggested approach for time-independent calculations of continuum spectra of molecules (Pezzella et al., 2022). Quasi-dissociative properties, including predissociation lifetimes and linewidths, of the c¹Π state are studied using four state-of-the-art predissociative methods: stabilization, Airy-boundary conditions within the WKB approximation, phase-amplitude, and complex-scaling approaches. The methodologies developed and tested in this work will be used to produce photoabsorption and photodissociation spectra of NH and other diatomic species as part of the ExoMol database (Q.-H. Ni et al., 2025) at www.exomol.com.

Original language	English
Article number	144108
Journal	Journal of Chemical Physics
Volume	162
Issue number	14
DOIs	https://doi.org/10.1063/5.0262447
State	Published - 14 Apr 2025

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title = "Computing photodissociation cross sections and quasi-continuum properties of the NH radical",

abstract = "Photodissociation cross sections of NH for 250 > λ > 100 nm are studied using (i) the recently reported spectroscopic model of the five lowest electronic states of NH, (ii) a new set of ab initio potential energy, (transition) dipole moment, spin-orbit, and electronic angular momentum curves covering the region up to 100 000 cm−1, and (iii) the recently suggested approach for time-independent calculations of continuum spectra of molecules (Pezzella et al., 2022). Quasi-dissociative properties, including predissociation lifetimes and linewidths, of the c1Π state are studied using four state-of-the-art predissociative methods: stabilization, Airy-boundary conditions within the WKB approximation, phase-amplitude, and complex-scaling approaches. The methodologies developed and tested in this work will be used to produce photoabsorption and photodissociation spectra of NH and other diatomic species as part of the ExoMol database (Q.-H. Ni et al., 2025) at www.exomol.com.",

author = "Tereza Uhl{\'i}kov{\'a} and Yurchenko, \{Sergei N.\} and Perri, \{Armando N.\} and Jonathan Tennyson and Kim, \{Gap Sue\}",

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AU - Uhlíková, Tereza

AU - Yurchenko, Sergei N.

AU - Perri, Armando N.

AU - Tennyson, Jonathan

AU - Kim, Gap Sue

PY - 2025/4/14

Y1 - 2025/4/14

N2 - Photodissociation cross sections of NH for 250 > λ > 100 nm are studied using (i) the recently reported spectroscopic model of the five lowest electronic states of NH, (ii) a new set of ab initio potential energy, (transition) dipole moment, spin-orbit, and electronic angular momentum curves covering the region up to 100 000 cm−1, and (iii) the recently suggested approach for time-independent calculations of continuum spectra of molecules (Pezzella et al., 2022). Quasi-dissociative properties, including predissociation lifetimes and linewidths, of the c1Π state are studied using four state-of-the-art predissociative methods: stabilization, Airy-boundary conditions within the WKB approximation, phase-amplitude, and complex-scaling approaches. The methodologies developed and tested in this work will be used to produce photoabsorption and photodissociation spectra of NH and other diatomic species as part of the ExoMol database (Q.-H. Ni et al., 2025) at www.exomol.com.

AB - Photodissociation cross sections of NH for 250 > λ > 100 nm are studied using (i) the recently reported spectroscopic model of the five lowest electronic states of NH, (ii) a new set of ab initio potential energy, (transition) dipole moment, spin-orbit, and electronic angular momentum curves covering the region up to 100 000 cm−1, and (iii) the recently suggested approach for time-independent calculations of continuum spectra of molecules (Pezzella et al., 2022). Quasi-dissociative properties, including predissociation lifetimes and linewidths, of the c1Π state are studied using four state-of-the-art predissociative methods: stabilization, Airy-boundary conditions within the WKB approximation, phase-amplitude, and complex-scaling approaches. The methodologies developed and tested in this work will be used to produce photoabsorption and photodissociation spectra of NH and other diatomic species as part of the ExoMol database (Q.-H. Ni et al., 2025) at www.exomol.com.

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JO - Journal of Chemical Physics

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ER -

Computing photodissociation cross sections and quasi-continuum properties of the NH radical

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