Reactive collisions between electrons and BeT+: Complete set of thermal rate coefficients up to 5000 K

@article{Pop2021ReactiveCB,
  title={Reactive collisions between electrons and BeT+: Complete set of thermal rate coefficients up to 5000 K},
  author={Nicolina Pop and Felix Iacob and S. Niyonzima and A. Abdoulanziz and Vincenzo Laporta and Detlev Reiter and Ioan F. Schneider and J. Zs. Mezei},
  journal={Atomic Data and Nuclear Data Tables},
  year={2021},
  volume={139},
  pages={101414}
}
View PDF on arXiv
2 Citations

2 Citations

Formation of the BeH+ and BeD+ Molecules in Be+ + H/D Collisions Through Radiative Association

Cross sections and rate coefficients for the formation of BeH+ and BeD+ molecules in Be+ + H/D collisions through radiative association are calculated using quantum mechanical perturbation theory and

Data for Photodissociation of Some Small Molecular Ions Relevant for Astrochemistry and Laboratory Investigation

The calculated photodissociation data of some small molecular ions have been reported. The cross-sections and spectral rate coefficients data have been studied using a quantum mechanical method. The

References

SHOWING 1-10 OF 30 REFERENCES

Low-energy collisions between electrons and BeD+

Multichannel quantum defect theory is applied in the treatment of the dissociative recombination and vibrational excitation processes for the BeD+ ion in the 24 vibrational levels of its ground

Low-energy collisions between electrons and BeH+: Cross sections and rate coefficients for all the vibrational states of the ion

State-to-state electron impact cross sections for BeH+ molecular ions in ITER-like fusion edge plasmas with Be walls

BeH+ molecules will be an important intermediary species present in fusion plasmas with Be walls (e.g. JET, ITER), both for impurity transport and spectroscopic studies. To enable such analyses the

Theoretical resonant electron-impact vibrational excitation, dissociative recombination and dissociative excitation cross sections of ro-vibrationally excited BeH+ ion

A theoretical study of resonant vibrational excitation, dissociative recombination and dissociative excitation processes of the beryllium monohydride cation, BeH+, induced by electron impact, is

Reactive collision of electrons with CO+ in cometary coma

Context. In order to improve our understanding of the kinetics of the cometary coma, theoretical studies of the major reactive collisions in these environments are needed. Deep in the collisional

Theoretical study of dissociative recombination and vibrational excitation of the BF 2 + ion by an electron impact

Cross-sections for dissociative recombination and electron-impact vibrational excitation of the BF 2 + molecular ion are computed using a theoretical approach that combines the normal modes

Dissociative recombination of BeH{sup +}

The cross section for dissociative recombination of BeH{sup +} is calculated by the solution of the time-dependent Schroedinger equation in the local complex potential approximation. The effects of

Synthetic spectra of BeH, BeD and BeT for emission modeling in JET plasmas

A theoretical model for isotopologues of beryllium monohydride, BeH, BeD and BeT, A 2 Π to X 2 Σ + visible and X 2 Σ + to X 2 Σ + infrared rovibronic spectra is presented. The MARVEL procedure is

Electron-Induced Excitation, Recombination, and Dissociation of Molecular Ions Initiating the Formation of Complex Organic Molecules

We review the study of dissociative recombination and rovibrational excitation of diatomic and small polyatomic molecular ions initiating complex organic molecules formation. In particular, we show

The role of Rydberg states in H+2 dissociative recombination with slow electrons

The cross section for H+2 dissociative recombination with slow electrons is calculated using the multichannel quantum defect theory, with the set of molecular data used for the recent study of H+H*