What question did this study set out to answer?

The aim is to describe the dynamics of ionic fragments generated from deep core-level ionization and their subsequent electronic decay.

March 25, 2026Open Access

Spatial and temporal evolution of ionic fragments produced by deep core-level ionization

Key Points

The aim is to describe the dynamics of ionic fragments generated from deep core-level ionization and their subsequent electronic decay.
Analyzed K-shell ionization of HCl as a benchmark
Identified metastable intermediates during fragmentation
Examined interactions at varying internuclear separations
Metastable intermediates persist beyond 100 a.u. internuclear separations
Short-lived states decay at smaller separations causing broader spectral lines
Narrow atomic lines emerge due to weakened Coulomb interactions

Abstract

Multiply charged molecules fragment under Coulomb repulsion, leaving characteristic fingerprints in ensuing electronic decay. Using K-shell ionization of HCl as a benchmark, we identify metastable intermediates that persist to internuclear separations beyond 100 a.u., where weakened Coulomb interactions enable the emergence of narrow atomic lines, while short-lived states decay at smaller separations, producing broad, red-shifted backgrounds. This work provides a previously missing dynamical description of coupled electronic and nuclear evolution in the Coulomb fragmentation regime.

Spatial and temporal evolution of ionic fragments produced by deep core-level ionization

Key Points

Abstract

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