Foreshock Ultralow Frequency Waves at Mars: Consequence on the Particle Acceleration Mechanisms at the Martian Bow Shock

The Astrophysical Journal Pub Date : 2025-01-20 DOI:10.3847/1538-4357/ada250

Nahuel Andrés, Norberto Romanelli, Christian Mazelle, Li-Jen Chen, Jacob R. Gruesbeck and Jared R. Espley

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Abstract

Using Mars Atmosphere and Volatile EvolutioN Magnetometer observations, we report the first statistical study of ultralow frequency (ULF) waves at the Martian foreshock. The analyzed foreshock ULF wave events are observed in the 0.008–0.086 Hz frequency range, with nearly circular and elliptical left-handed polarization in the spacecraft reference frame. These waves are propagated quasi-parallel to the ambient magnetic field, with a moderate wave amplitude. All these properties are consistent with fast magnetosonic waves, most likely generated through the ion–ion right-hand resonant instability. In addition, our results suggest that the associated resonant backstreaming protons’ velocities parallel to the mean magnetic field in the solar wind reference frame are 1.33 ± 0.40 times the solar wind velocity. The similarity between our results and previous reports at other foreshocks may indicate the presence of a common acceleration process acting in planetary bow shocks and that is responsible for this particular backstreaming population.

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火星上的前震超低频波：对火星弓形激波粒子加速机制的影响

利用火星大气和挥发性演化磁力计观测，我们报告了火星前震的超低频（ULF）波的首次统计研究。所分析的前震极低频波事件在0.008 ~ 0.086 Hz频率范围内，在航天器参参考系中具有近圆形和椭圆形的左旋极化。这些波的传播与周围磁场近似平行，波幅适中。所有这些性质都与快速磁声波一致，极有可能是通过离子-离子右手共振不稳定性产生的。此外，我们的研究结果表明，在太阳风参考系中，与平均磁场平行的共振倒流质子的速度是太阳风速度的1.33±0.40倍。我们的研究结果与之前关于其他前震的报告之间的相似性可能表明，在行星弓形冲击中存在共同的加速过程，这是造成这种特殊回流人口的原因。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Astrophysical Journal

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