Litcius/Paper detail

Million-year solar wind irradiation recorded in chang’E-5 and chang’E-6 samples

Renrui Liu, Xiaoping Zhang, Sizhe Zhao, Yi Xu, P. W. Luo, Yang Li, Xiaojia Zeng, Chenkun Sun, Ronghua Pang, Chen Li, Xiongyao Li, Lianghai Xie, Zhiguo Meng, Qiugang Zong, Chi Wang

2025Nature Communications10 citationsDOIOpen Access PDF

Abstract

The long-term effects of Earth's magnetosphere on solar wind (SW) irradiation asymmetry between the lunar nearside and farside, and their implications for space weathering processes, remain poorly characterized. Here, we measure exposure ages and SW-induced amorphous rim thicknesses of individual grains from the Chang'E-5 (CE-5) and Chang'E-6 (CE-6) lunar soils to derive rim growth rates. Comparative analysis of SW irradiation records from CE-5, CE-6, and Apollo (11, 16, 17) samples reveals that CE-6 grains from the southern mid-latitude farside exhibit higher rim growth rates than those from the low-latitude nearside Apollo sites. This trend aligns with simulated lunar surface SW fluxes and is consistent with the hypothesis that reduced SW exposure on the nearside, due to Earth's magnetospheric shielding, may contribute to a persistent hemispheric asymmetry in SW irradiation. However, CE-5 samples from the northern mid-latitude nearside yield unexpectedly high rim growth rates, suggesting the potential involvement of additional local factors. The exact reasons for this anomaly remain unclear and warrant further investigation.

Topics & Concepts

Lunar soilSpace weatheringIrradiationAstrobiologyGeologyMagnetosphereSolar windRegolithAnomaly (physics)Impact craterMagnetosphere of JupiterAmorphous solidAeolian processesAsymmetryGeology of the MoonYield (engineering)MineralogyApolloAtmospheric sciencesSoil waterEnvironmental scienceCarbon fibersGeophysicsSolar SystemPlanetary Science and ExplorationAstro and Planetary ScienceSpace Science and Extraterrestrial Life