Magnetic field fluctuations across the Earth’s bow shock

Czaykowska, A.; Bauer, Thomas; Treumann, R. A.; Baumjohann, W.

doi:10.5194/angeo-19-275-2001

Cited by 77 publications

(121 citation statements)

References 48 publications

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“…A similar spectral maximum was observed during a flux transfer event on the magnetopause (Rezeau et al, 1993). This spectral knee has also been observed downstream of quasi-perpendicular bowshocks (Czaykowska et al, 2001) when the upstream solar wind beta was β<0.5. It was interpreted as a signature of AIC waves.…”

Section: The Earth Magnetosheathsupporting

confidence: 54%

“…In both regions the anisotropy in wave vector distributions, k ⊥ >k , is observed (Bieber et al, 1996;Horbury et al, 2005;Sahraoui et al, 2006;Mangeney et al, 2006;Osman and Horbury, 2007). In both regions the turbu- lent spectrum has a break at the vicinity of the ion characteristic scales (Leamon et al, 1998;Czaykowska et al, 2001).…”

Section: Discussionmentioning

confidence: 88%

“…1a, one can see that the high frequency part of the spectrum, within the range [2.0, 12.5] Hz, follows a well defined power law f −4 . This power law is rather far from the mean spectrum ∼f −2.6 determined in (Czaykowska et al, 2001), which we have discussed in Sect. 1.…”

Section: Magnetosheath Spectrum In the Presence Of Alfvén Vorticesmentioning

confidence: 95%

“…In the statistical study (Czaykowska et al, 2001), the authors consider not only frequencies below f ci , but also the high-frequency part f >f ci . Regardless of the fact that the mean fluctuation level downstream of a quasi-parallel shock is higher than downstream of a quasi-perpendicular shock, it was shown that both spectra have a break at the vicinity of f ci and that the high-frequency parts of the spectra f >f ci follow the same power-law ∼f −2.6 .…”

Section: The Earth Magnetosheathmentioning

confidence: 99%

“…In a statistical study (Czaykowska et al, 2001), 132 samples of magnetosheath fluctuations are analyzed just downstream of quasi-parallel and quasi-perpendicular bowshocks. In this study, 4-min time periods centered at 3, 5 and 7 min from the shock crossing have been analyzed.…”

Section: The Earth Magnetosheathmentioning

confidence: 99%

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Solar wind vs magnetosheath turbulence and Alfvén vortices

Alexandrova

2008

Nonlin. Processes Geophys.

112

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Abstract. In this paper we give firstly a broad review of the space plasma turbulence around the ion characteristic space and temporal scales within two natural laboratories, the solar wind and the Earth magnetosheath. In both regions power law spectra of magnetic fluctuations are observed. In both regions these spectra have a break in the vicinity of the ion cyclotron frequency. A distinctive feature of the magnetosheath turbulence is the presence of Alfvén vortices at scales of the spectral break. The Alfvén vortices are multi-scale nonlinear structures. We give a review of the main theoretical features of incompressible Alfvén vortsices in the second part of the paper. Finally, we analyze the spectral properties of the Alfvén vortex solution and of the network of such vortices. We show that the observed magnetosheath spectrum in presence of the Alfvén vortices can be described, at least partially, by the vortex network model.

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Section: The Earth Magnetosheathsupporting

confidence: 54%

Section: Discussionmentioning

confidence: 88%

Section: Magnetosheath Spectrum In the Presence Of Alfvén Vorticesmentioning

confidence: 95%

Section: The Earth Magnetosheathmentioning

confidence: 99%

Section: The Earth Magnetosheathmentioning

confidence: 99%

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Solar wind vs magnetosheath turbulence and Alfvén vortices

Alexandrova

2008

Nonlin. Processes Geophys.

112

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ULF wave activity in high‐speed streams of the solar wind: Impact on the magnetosphere

Potapov

2013

JGR Space Physics

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[1] In recent years, the study of solar-magnetospheric interaction has increasingly been focusing on wave phenomena and the role of turbulence in the processes of energy and momentum transfer from the Sun to the Earth's magnetosphere. Here we consider one aspect of the problem -the impact of wave patterns associated with high-speed solar wind streams (HSSs) on the variable geomagnetic field and the trapped radiation. The superposed epoch method was chosen as our research technique. We use observations of the solar wind plasma and the interplanetary magnetic field at libration point L1, as well as measurements of electron fluxes at geostationary orbit and of geomagnetic pulsations on ground. Data from 31 corotating interaction regions (CIR), their sources being coronal holes on the Sun, and 13 streams from coronal mass ejections (CME) were processed. The focus is on the regime of ultra-low frequency (ULF) waves in high-speed flows and ULF fluctuations in the magnetosphere. A significant difference has been revealed between the wave activity characteristics of the two HSS types in the solar wind and on the earth. Irregular pulses are typical for coronal mass ejections and wave-like conditions are common for CIRs. For the latter, the temporal profile of the normalized ULF amplitude in the solar wind is similar to the pulsation amplitude profile on the ground. We also found that a high level of ULF activity in the magnetosphere during CIR intervals is favorable to 2 MeV electron flux enhancement, but does not affect the flux of less energetic electrons.

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The turbulence evolution in the high β region of the Earth's foreshock

Pang

Huang

et al. 2013

JGR Space Physics

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[1] In this paper, we study the foreshock turbulence evolution in high β region via both Cluster observation on 29 March 2002 and 1-D hybrid simulation. The quasi-sinusoidal and the irregular wave trains are both detected in this event. The former one is believed to be generated by ion-ion right-hand nonresonant instability due to the right-hand polarization and antisunward propagation in the plasma frame. Since the ion distribution associated with the wave train is more "intermediate" rather than "diffused", we suggest that the wave train reported in this paper can be viewed as a "midstep" of "isolated" and "irregular". From the quasi-sinusoidal to the irregular waveform, the corresponding polarizations appear to transit: right-hand wave of higher frequency (wave number) is substituted by a left-hand wave with lower frequency (wave number) in spacecraft frame. Then the 1-D hybrid simulation is applied for two cases with various velocities to study such polarization transition. By comparing observation results with the simulation, such polarization transition and "inversed cascade" (wave energy transferring from large wave number to small wave number) can be understood as the consequence of decay instability. Although decay instability cannot be initiated in high beta (β > 1) plasma in magnetohydrodynamic theory, such β dependence can be modified by ion kinetic effect. Moreover, it is found that in simulation no matter which right-hand instability is dominant in early stage, left-hand wave will be the prime component of magnetic field disturbance in the final stage.

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Magnetic field fluctuations across the Earth’s bow shock

Cited by 77 publications

References 48 publications

Solar wind vs magnetosheath turbulence and Alfvén vortices

Solar wind vs magnetosheath turbulence and Alfvén vortices

ULF wave activity in high‐speed streams of the solar wind: Impact on the magnetosphere

The turbulence evolution in the high β region of the Earth's foreshock

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