世界地震译丛2026,Vol.57Issue(4):474-489,16.DOI:10.19975/j.dqyxx.2025-047
木星辐射带高能粒子环境
Energetic particle environment of Jupiter's radiation belts
摘要
Abstract
Jupiter possesses the strongest intrinsic magnetic field,the fastest rotation rate,the most volcanically active moon(Io),and the strongest radiation belts among all planets in the solar system.Jupiter's radiation belts are primarily composed of electrons,protons,and heavy ions(mainly oxygen and sulfur ions)moving at relativistic speeds.Both the particle flux and energy in these belts significantly exceed those of Earth's radiation belts.As a natural particle accelerator,Jupiter's radiation belts are not only of fundamental importance for understanding basic plasma physics processes,but also directly relevant to trajectory design,radiation protection for missions to the Jovian system,and the assessment of habitability of its moons.Under the combined influence of solar wind,plane-tary rotation,and natural satellites,Jupiter's radiation belts exhibit highly complex spatial structures and dynamic evolution.However,due to a lack of observational data—especially in the core region of the radiation belts—cur-rent understanding remains substantially incomplete.Based on existing researches on Jupiter's radiation belts,this article provides a systematic review of advances in the study of energetic particle environment of Jupiter's radiation belts.It begins by introducing the spatial structure,energy spectrum characteristics,and pitch angle distribution of both electron and ion radiation belts,with comparisons made to the radiation belts of Earth and Saturn.The review further explores the origins,acceleration,and loss mechanisms of energetic particles in Jupiter's radiation belts,and discusses the influence of natural satellites on the evolution of these particles.An overview is also provided of cur-rent empirical models based on observations and progress in numerical modeling based on physical processes.Fi-nally,the paper concludes by analyzing key scientific questions that urgently need to be addressed in current re-search on Jupiter's radiation belts and preliminarily outlines the challenges posed by Jupiter's extreme radiation en-vironment for future exploration missions to the Jovian system.关键词
木星辐射带/木星卫星/辐射带建模/比较行星学/木星系探测Key words
Jupiter's radiation belts/Jupiter's moons/radiation belt modeling/comparative planetology/Jupiter system exploration分类
天文与地球科学引用本文复制引用
曹兴,王少北,滕尚纯,呼延奇,龙敏义,陆鹏,倪彬彬..木星辐射带高能粒子环境[J].世界地震译丛,2026,57(4):474-489,16.基金项目
国家自然科学基金资助项目(42025404,42188101,42374193,42578012) (42025404,42188101,42374193,42578012)
国家重点研发计划资助项目(2022YFF0503700,2022YFF0503900) Supported by the National Natural Science Foundation of China(Grant Nos.42025404,42188101,42374193,42578012)and the National Key R&D Program of China(Grant Nos.2022YFF0503700,2022YFF0503900) (2022YFF0503700,2022YFF0503900)
