What question did this study set out to answer?

The central aim is to analyze Rydberg states of H2 up to n = 20 using the Halfium R-matrix method.

April 1, 2026Open Access

Mapping Rydberg States of H2 with the Halfium R-Matrix Method

Key Points

The central aim is to analyze Rydberg states of H2 up to n = 20 using the Halfium R-matrix method.
Utilized the Halfium R-matrix method to study Rydberg states of H2
Applied Quantum Defect Theory for insight into Rydberg series
Conducted analysis focusing on coupling with doubly excited states
Identified comprehensive patterns from Rydberg series and excited states interactions
Enabled quasi-diabatization of potential energy curves
Facilitated calculations of cross sections and rate coefficients for (e + H2+) collisions

Abstract

In this paper, we use the Halfium R-matrix method to investigate the Rydberg states of the H2 molecule up to n = 20, filling the gap above the low-lying bound states already calculated with configuration interaction packages. Moreover, we show that the use of Quantum Defect Theory scaling laws, allows for a comprehensive analysis of the regular patterns resulting from the coupling between Rydberg series and doubly excited states. The results should open the door for more efficient quasi-diabatization of the potential energy curves which is required for calculating cross sections and rate coefficients of the (e + H2+) collisional processes, involved in the plasma modeling for fusion devices.

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Cite This Study

MEZLINI et al. (Thu,) studied this question.

synapsesocial.com/papers/69cd79bb5652765b073a69e4 https://doi.org/https://doi.org/10.1585/pfr.21.2401009

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