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8 results on '"Liu, Terry Zixu"'

1. Magnetosheath ion field-aligned anisotropy and implications for ion leakage to the foreshock

Author

Liu, Terry Zixu, Angelopoulos, Vassilis, Zhang, Hui, Vu, Andrew, and Raeder, Joachim

Subjects
Physics - Space Physics
Abstract

The ion foreshock is highly dynamic, disturbing the bow shock and the magnetosphere-ionosphere system. To forecast foreshock-driven space weather effects, it is necessary to model foreshock ions as a function of upstream shock parameters. Case studies in the accompanying paper show that magnetosheath ions sometimes exhibit strong field-aligned anisotropy towards the upstream direction, which may be responsible for enhancing magnetosheath leakage and therefore foreshock ion density. To understand the conditions leading to such an anisotropy and the potential for enhanced leakage, we perform case studies and a statistical study of magnetosheath and foreshock region data surrounding ~500 THEMIS bow shock crossings. We quantify the anisotropy using the heat flux along the field-aligned direction. We show that the strong field-aligned heat flux persists across the entire magnetosheath from the magnetopause to the bow shock. Ion distribution functions reveal that the strong heat flux is caused by a secondary thermal population. We find that stronger anisotropy events exhibit heat flux preferentially towards the upstream direction near the bow shock and occur under larger IMF strength and larger solar wind dynamic pressure and/or energy flux. Additionally, we show that near the bow shock, magnetosheath leakage is a significant contributor to foreshock ions, and through enhancing the leakage the magnetosheath ion anisotropy can modulate the foreshock ion velocity and density. Our results imply that likely due to field line draping and compression against the magnetopause that leads to a directional mirror force, modeling the foreshock ions necessitates a more global accounting of downstream conditions., Comment: Under review by JGR Space Physics

Published
2024

3. Multi Satellite Observation of a Foreshock Bubble Causing an Extreme Magnetopause Expansion

Author

Grimmich, Niklas, primary, Prencipe, Fabio, additional, Turner, Drew L., additional, Liu, Terry Zixu, additional, Plaschke, Ferdinand, additional, Archer, Martin Owain, additional, Nakamura, Rumi, additional, Sibeck, David Gary, additional, Mieth, Johannes Z. D., additional, Auster, Hans-Ulrich, additional, Constantinescu, Ovidiu Dragos, additional, Fischer, David, additional, and Magnes, Werner, additional

Published
2023
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8. Magnetosheath jets: coupling shocks, reconnection, and particle acceleration.

Author

Hietala, Heli, Liu, Terry Zixu, Roytershteyn, Vadim, and Omelchenko, Yuri

Subjects
*PARTICLE acceleration, *MAGNETIC flux density, *JETS (Fluid dynamics), *PLASMA heating, *PARTICLES (Nuclear physics), *GAMMA ray bursts, *JETS (Nuclear physics)
Abstract

Quasi-parallel shocks generate a multitude of transient structures in their surroundings, both upstream and downstream. Some of the most prominent phenomena are magnetosheath jets - localized enhancements of dynamic pressure with typical scales of about 1 Earth radius (10s of ion inertial lengths). Here we present new advances in understanding the role jets play in linking fundamental particle energization processes.Key characteristics of nonlinear structures such as the jets are their scale sizes and shapes. While it is possible to investigate the jet scale sizes and shapes with multi-point spacecraft observations, many assumptions underlie such a (statistical) analysis. The 2D nature of previous simulations, on the other hand, may have limited the magnetosheath and jet flow patterns, therefore affecting their structure. Here we present new global 3D hybrid-Particle-in-Cell simulations, and compare the results of clustering analysis and virtual spacecraft analysis.Large jets impact the dayside magnetopause many times per hour. Could such impacts trigger local magnetopause reconnection? We present THEMIS observations indicating that a jet impact compressed an originally thick, high magnetic shear magnetopause until it was thin enough for reconnection to occur. Magnetosheath jets could therefore act as a driver for bursty reconnection.Jets with high enough speed could also affect particle acceleration by driving localized secondary shocks within the magnetosheath. We search a THEMIS database of about 3000 jet events for supermagnetosonic jets associated with sharp increases in magnetic field strength and density, and a large velocity deflection. We find that about 12% of the jet events have a shock-like structure ahead of them. These events also have a higher probability to be associated with local higher energy ions and electrons. We conclude that secondary shocks driven by magnetosheath jets can energize particles, which has implications for the downstream plasma heating and bow shock acceleration. [ABSTRACT FROM AUTHOR]

Published
2019

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