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This research investigates how hyperfine interaction affects angular distributions during ionization in hydrogen-like targets.

April 4, 2026

Role of Hyperfine Interaction in the Formation of Angular Distributions in the Ioization of Hydrogen-Like Targets in a Pump–Probe Scheme

Key Points

This research investigates how hyperfine interaction affects angular distributions during ionization in hydrogen-like targets.
Examined depolarization effects from hyperfine interactions and angular momentum.
Utilized a pump-probe scheme to analyze photoelectron angular distributions.
Analyzed combinations of polarizations in colinear and circularly polarized fields.
Illustrated the influence of hyperfine interaction on angular distributions for a hydrogen-like target.
Demonstrated distinct angular behavior for different combinations of polarization states.
Highlighted the role of nuclear spin in shaping photoelectron trajectories.

Abstract

The article considers depolarization effects caused by the hyperfine interaction between the total electronic-shell angular momentum and the nuclear spin. A pump–probe scheme is examined, and the corresponding photoelectron angular distributions are obtained. The analytical results are illustrated by calculations for a hydrogen-like target: a single electron in a Coulomb potential. Three most representative combinations of polarizations of the pump and probe fields are considered: colinear polarizations (1) and circularly polarized fields with the same (2) and opposite (3) helicities.

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Role of Hyperfine Interaction in the Formation of Angular Distributions in the Ioization of Hydrogen-Like Targets in a Pump–Probe Scheme

Key Points

Abstract

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