What question did this study set out to answer?

The aim is to investigate isotopic variations due to neutron capture in various solar planetary materials and their cosmic-ray histories.

February 19, 2026Open Access

Isotopic variations of solar planetary materials caused by neutron capture reactions in space

Key Points

The aim is to investigate isotopic variations due to neutron capture in various solar planetary materials and their cosmic-ray histories.
Utilized isotopic shifts of 149Sm-150Sm and 157Gd-158Gd for analysis.
Examined four types of planetary materials: enstatite chondrites, iron meteorites, lunar soils, and lunar meteorites.
Reviewed previous studies on cosmic-ray exposure conditions.
Identified isotopic shifts indicative of different cosmic-ray exposure histories.
Demonstrated the link between these isotopic variations and the evolution of planetary materials.

Abstract

Abstract 149Sm-150Sm and 157Gd-158Gd isotopic shifts of solar planetary materials caused by neutron capture reactions have been utilized to characterize the cosmic-ray exposure (CRE) conditions of the individual materials in space. This paper reviews the results of Sm and Gd isotopic shifts for four kinds of planetary materials: enstatite chondrites (aubrites), iron and iron meteorites, lunar soils, and lunar meteorites, and their application with a view to understanding the relationship between the CRE histories and the evolution processes for individual planetary materials as addressed in my previous studies.

Isotopic variations of solar planetary materials caused by neutron capture reactions in space

Key Points

Abstract

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