3D Space‐Time Adaptive Hybrid Simulations of Magnetosheath High‐Speed Jets

Omelchenko, Y. A.; Chen, L.-J.; Ng, Jonathan

doi:10.1029/2020ja029035

Cited by 26 publications

(65 citation statements)

References 33 publications

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“…Magnetosheath jets are widely associated with the quasi‐parallel magnetosheath (Archer & Horbury, 2013; Němeček et al., 1998; Plaschke et al., 2013; Vuorinen et al., 2019), suggesting that their origin is tied to the interactions between the foreshock and the bow shock. Results from global hybrid simulations (Karimabadi et al., 2014; Omelchenko et al., 2021; Omidi et al., 2016; Palmroth, Hietala, et al., 2018) likewise point to foreshock–bow shock interaction as the origin of jets.…”

Section: Introductionmentioning

confidence: 99%

Connection Between Foreshock Structures and the Generation of Magnetosheath Jets: Vlasiator Results

Suni

Palmroth

Turc

et al. 2021

Geophysical Research Letters

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Earth's magnetosheath forms the interface between our planetary magnetosphere and the supermagnetosonic solar wind flow. The magnetosheath is bounded by the bow shock separating it from the upstream solar wind, and by the magnetopause, which is the outer boundary of the magnetosphere. An important factor determining the nature of the bow shock and the magnetosheath is the orientation of the interplanetary magnetic field (IMF). Where the bow shock normal direction is quasi-parallel to the IMF, solar wind particles reflected at the bow shock can stream back toward the Sun, forming the turbulent foreshock upstream of the shock (e.g., Eastwood et al., 2005;Hoppe et al., 1981). Consequently, the magnetosheath behind the quasi-parallel bow shock is more turbulent (e.g., Dimmock et al., 2014;Gutynska et al., 2015) than the quasi-perpendicular magnetosheath. In recent years, one of the most important avenues in magnetosheath research has been the study of magnetosheath jets (e.g., Plaschke et al., 2018), which are regions of high dynamic pressure. Magnetosheath jets are widely associated with the quasi-parallel magnetosheath

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Section: Introductionmentioning

confidence: 99%

Connection Between Foreshock Structures and the Generation of Magnetosheath Jets: Vlasiator Results

Suni

Palmroth

Turc

et al. 2021

Geophysical Research Letters

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“…For instance, a representative simulation cost of the hybrid global code HYPERS is ~1-million core-hrs for a 1-hour-long simulation of the Earth's magnetosphere [Y. Omelchenko, private communication], extrapolated from the simulations presented in Omelchenko et al (2021) for that specific resolution. As another example, the recent first 6D run of the hybrid global code Vlasiator cost ~15-million core-hrs for a 30-minutes-long simulation of the coupled solar wind-magnetosphere system using the Earth's dipole magnetic field [M. Palmroth, private communication].…”

Section: Discussion: System Science Of Global Magnetospheric Modelsmentioning

confidence: 99%

“…This is in part because MHD becomes problematic for thin boundary layers such as those at the bow shock and the magnetopause. Examples of beyond-MHD approaches at various stages of development include more-sophisticated fluid models (Wang et al, 2018), hybrid approaches that treat ions kinetically and electrons as a massless fluid (Karimabadi et al, 2014;Lin et al, 2017;Palmroth et al, 2018;Omelchenko et al, 2021), spectral methods (Koshkarov et al, 2021) and MHD models locally coupled with kinetic solvers (Daldorff et al, 2014;Chen et al, 2017). Global magnetospheric models are also becoming more complex in terms of the number of sub-systems that they include.…”

Section: Global Magnetospheric Modelsmentioning

confidence: 99%

The Need for a System Science Approach to Global Magnetospheric Models

Delzanno

Borovsky

2022

Front. Astron. Space Sci.

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This perspective advocates for the need of a combined system science approach to global magnetospheric models and to spacecraft magnetospheric data to answer the question “Do simulations behave in the same manner as the magnetosphere does?” (instead of the standard validation question “How well do simulations reproduce spacecraft data?”). This approach will 1) validate global magnetospheric models statistically, without the need for a direct comparison against spacecraft data, 2) expose the deficiencies of the models, and 3) provide physics support to the system analysis performed on the magnetospheric system.

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“…They also suggested that the impact of IMF on jet formation and properties may be larger than has been thought. A recent 3D hybrid simulation study by Omelchenko et al (2021) supports this notion, as they linked the formation of jets to entangled fieldlines turbulently convecting in the magnetosheath, facilitating compression of solar wind plasma into jets. Some of these jets can make it to the magnetopause, and their high-dynamic pressure impacts on this boundary have been observed to cause many types of effects.…”

Section: 1029/2021ja029188 2 Of 19mentioning

confidence: 92%

“…A recent 3D hybrid simulation study by Omelchenko et al. (2021) supports this notion, as they linked the formation of jets to entangled field‐lines turbulently convecting in the magnetosheath, facilitating compression of solar wind plasma into jets.…”

Section: Introductionmentioning

confidence: 92%

Magnetic Field in Magnetosheath Jets: A Statistical Study of B_Z Near the Magnetopause

et al. 2021

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Magnetosheath jets travel from the bow shock toward the magnetopause, and some of them eventually impact it. Jet impacts have recently been linked to triggering magnetopause reconnection in case studies by Hietala et al. (2018, https://doi.org/10.1002/2017gl076525) and Nykyri et al. (2019, https://doi.org/10.1029/2018ja026357). In this study, we focus on the enhancing or suppressing effect jets could have on reconnection by locally altering the magnetic shear via their own magnetic fields. Using observations from the years 2008–2011 made by the Time History of Events and Macroscale Interactions during Substorms spacecraft and solar wind OMNI data, we statistically study for the first time BZ within jets in the Geocentric Solar Magnetospheric coordinates. We find that BZ opposite to the prevailing interplanetary magnetic field (IMF) BZ is roughly as common in jets as in the non‐jet magnetosheath near the magnetopause, but these observations are distributed differently. 60–70% of jet intervals contain bursts of opposite polarity BZ in comparison to around 400.17em% of similar non‐jet intervals. The median duration of such a burst in jets is 10 s and strength is ±10nT. We also investigate the prevalence of the type of strong BZ≤goodbreak−24nT pulses that Nykyri et al. (2019, https://doi.org/10.1029/2018ja026357) linked to a substorm onset. In our data set, such pulses were observed in around 13% of jets. Our statistical results indicate that jets may have the potential to affect local magnetopause reconnection via their magnetic fields. Future studies are needed to determine whether such effects can be observed.

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3D Space‐Time Adaptive Hybrid Simulations of Magnetosheath High‐Speed Jets

Cited by 26 publications

References 33 publications

Connection Between Foreshock Structures and the Generation of Magnetosheath Jets: Vlasiator Results

Connection Between Foreshock Structures and the Generation of Magnetosheath Jets: Vlasiator Results

The Need for a System Science Approach to Global Magnetospheric Models

Magnetic Field in Magnetosheath Jets: A Statistical Study of B_Z Near the Magnetopause

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3D Space‐Time Adaptive Hybrid Simulations of Magnetosheath High‐Speed Jets

Cited by 26 publications

References 33 publications

Connection Between Foreshock Structures and the Generation of Magnetosheath Jets: Vlasiator Results

Connection Between Foreshock Structures and the Generation of Magnetosheath Jets: Vlasiator Results

The Need for a System Science Approach to Global Magnetospheric Models

Magnetic Field in Magnetosheath Jets: A Statistical Study of BZ Near the Magnetopause

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Product

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Magnetic Field in Magnetosheath Jets: A Statistical Study of B_Z Near the Magnetopause