Radiative and opacity data obtained from large-scale atomic structure calculations and from statistical simulations for the spectral analysis of kilonovae in their photospheric and nebular phases: the sample case of Er III

Deprince, Jérôme; Carvajal Gallego, Helena; Ben Nasr, Sirine; Maison, Lucas; Pain, Jean-Christophe; Palmeri, Patrick; Quinet, Pascal

doi:10.1140/epjd/s10053-024-00897-5

Article (Scientific journals)

Radiative and opacity data obtained from large-scale atomic structure calculations and from statistical simulations for the spectral analysis of kilonovae in their photospheric and nebular phases: the sample case of Er III

Deprince, Jérôme; Carvajal Gallego, Helena; Ben Nasr, Sirine et al.

2024 • In European Physical Journal D. Atoms, Molecules, Clusters and Optical Physics, 78 (8)

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https://hdl.handle.net/2268/333302

DOI
10.1140/epjd/s10053-024-00897-5

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Keywords :

Atomic data; Atomic structure calculations; Lanthanide ion; Large-scales; Neutron stars; Relativistic Hartree-Fock methods; Spectral analyze; Statistical approach; Statistical simulation; Theoretical methods; Atomic and Molecular Physics, and Optics

Abstract :

[en] Abstract: This study is an overview of the atomic data and opacity computations performed by the Atomic Physics and Astrophysics Unit of Mons University in the context of kilonova emission following neutron star mergers, in both the photospheric and nebular phases. In this work, as a sample case, we focus on a specific lanthanide ion, namely Er III. As far as the LTE photospheric phase of the kilonova ejecta is concerned, we present our calculations using both a theoretical method (the pseudo-relativistic Hartree-Fock method, HFR) and a statistical approach (the Resolved Transition Array approach, RTA) to obtain the atomic data required to estimate the Er III expansion opacity for typical conditions expected in kilonova ejecta one day after the merger. In order to draw the limitations of both of our strategies, the results obtained using the latter are compared, and a calibration procedure of the HFR atomic data in this context is also discussed. Concerning the kilonova ejecta nebular phase, atomic parameters that characterize forbidden lines in Er III are calculated using HFR as well as another computational approach, namely the Multiconfiguration Dirac–Hartree–Fock (MCDHF) method. The potential detection of such lines in late-phase kilonova spectra is then discussed. Graphical abstract: (Figure presented.)

Disciplines :

Physics

Author, co-author :

Deprince, Jérôme ; Physique Atomique et Astrophysique, Université de Mons, Mons, Belgium ; Institut d’Astronomie et d’Astrophysique, Université Libre de Bruxelles, Brussels, Belgium

Carvajal Gallego, Helena; Physique Atomique et Astrophysique, Université de Mons, Mons, Belgium

Ben Nasr, Sirine; Physique Atomique et Astrophysique, Université de Mons, Mons, Belgium

Maison, Lucas; Physique Atomique et Astrophysique, Université de Mons, Mons, Belgium

Pain, Jean-Christophe; CEA, DAM, Arpajon, France ; Laboratoire Matière en Conditions Extrêmes, CEA, Université Paris-Saclay, Bruyères-le-Châtel, France

Palmeri, Patrick; Physique Atomique et Astrophysique, Université de Mons, Mons, Belgium

Quinet, Pascal ; Université de Liège - ULiège > Département de physique > Spectroscopie atomique et Physique des atomes froids ; Physique Atomique et Astrophysique, Université de Mons, Mons, Belgium

Language :

English

Title :

Publication date :

August 2024

Journal title :

European Physical Journal D. Atoms, Molecules, Clusters and Optical Physics

ISSN :

1434-6060

eISSN :

1434-6079

Publisher :

Springer Science and Business Media Deutschland GmbH

Volume :

Issue :

Peer reviewed :

Peer Reviewed verified by ORBi

Additional URL :

https://link.springer.com/content/pdf/10.1140/epjd/s10053-024-00897-5.pdf

Funders :

F.R.S.-FNRS - Fonds de la Recherche Scientifique

Funding text :

The present work is supported by the FWO and F.R.S.-FNRS under the Excellence of Science (EOS) programme (numbers O.0004.22 and O022818F). HCG is a holder of a FRIA fellowship. PP is Research Associate of the Belgian Fund for Scientific Research F.R.S.-FNRS. PQ is F.R.S.-FNRS Research Director. Computational resources have been provided by the Consortium des Equipements de Calcul Intensif (CECI), funded by the F.R.S.-FNRS under Grant No. 2.5020.11 and by the Walloon Region of Belgium.

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