Revisiting the structure of low-Mach number, low-beta, quasi-perpendicular shocks

L. B. Wilson III; A. Koval; A. Szabo; M. L. Stevens; J. C. Kasper; C. A. Cattell; V. V. Krasnoselskikh

doi:10.1002/2017JA024352

Revisiting the structure of low-Mach number, low-beta, quasi-perpendicular shocks

L. B. Wilson III, A. Koval, A. Szabo, M. L. Stevens, J. C. Kasper, C. A. Cattell, V. V. Krasnoselskikh

Physics and Astronomy (Twin Cities)

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53 Scopus citations

Abstract

A study of the structure of 145 low-Mach number (M≤3), low-beta (β≤1), quasi-perpendicular interplanetary collisionless shock waves observed by the Wind spacecraft has provided strong evidence that these shocks have large-amplitude whistler precursors. The common occurrence and large amplitudes of the precursors raise doubts about the standard assumption that such shocks can be classified as laminar structures. This directly contradicts standard models. In 113 of the 145 shocks (∼78%), we observe clear evidence of magnetosonic-whistler precursor fluctuations with frequencies ∼0.1–7 Hz. We find no dependence on the upstream plasma beta, or any other shock parameter, for the presence or absence of precursors. The majority (∼66%) of the precursors propagate at ≤45° with respect to the upstream average magnetic field and most (∼87%) propagate ≥30° from the shock normal vector. Further, most (∼79%) of the waves propagate at least 20° from the coplanarity plane. The peak-to-peak wave amplitudes (δB_pk-pk) are large with a range of maximum values for the 113 precursors of ∼0.2–13 nT with an average of ∼3 nT. When we normalize the wave amplitudes to the upstream averaged magnetic field and the shock ramp amplitude, we find average values of ∼50% and ∼80%, respectively.

Original language	English (US)
Pages (from-to)	9115-9133
Number of pages	19
Journal	Journal of Geophysical Research: Space Physics
Volume	122
Issue number	9
DOIs	https://doi.org/10.1002/2017JA024352
State	Published - Sep 2017

Bibliographical note

Funding Information:
The authors thank A.F.-Viñas, B. Lembège, L.K. Jian, and J.R. Woodroffe for useful discussions of collisionless shock physics. L.B.W., A.K., and A.S. were partially supported by Wind MO&DA funds/grants (no formal grant numbers); M.L.S. was partially supported by grants NNX14AT26G and NNX13AI75G; J.C.K. was partially supported by grant NNX14AR78G; C.A.C. partially supported by grant NNX16AF80G; and V.V.K. acknowledges financial support from CNES through the grant entitled, “STEREO S-WAVES & Wind Invited Scien tist.” The CFA Interplanetary Shock Database is supported by NASA grant NNX13AI75G. The authors thank the Harvard Smithsonian Center for Astrophysics and the NASA SPDF/ CDAWeb team for the interplanetary shock analysis and Wind data. The Wind shock database can be found at https://www.cfa.harvard.edu/ shocks/wi_data/.

Publisher Copyright:
Published 2017. This article has been contributed to by US Government employees and their work is in the public domain in the USA.

Keywords

Wind spacecraft
collisionless shock waves
interplanetary shocks
nonlinear waves
wave analysis
whistler mode waves

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https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6219398

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title = "Revisiting the structure of low-Mach number, low-beta, quasi-perpendicular shocks",

abstract = "A study of the structure of 145 low-Mach number (M≤3), low-beta (β≤1), quasi-perpendicular interplanetary collisionless shock waves observed by the Wind spacecraft has provided strong evidence that these shocks have large-amplitude whistler precursors. The common occurrence and large amplitudes of the precursors raise doubts about the standard assumption that such shocks can be classified as laminar structures. This directly contradicts standard models. In 113 of the 145 shocks (∼78%), we observe clear evidence of magnetosonic-whistler precursor fluctuations with frequencies ∼0.1–7 Hz. We find no dependence on the upstream plasma beta, or any other shock parameter, for the presence or absence of precursors. The majority (∼66%) of the precursors propagate at ≤45° with respect to the upstream average magnetic field and most (∼87%) propagate ≥30° from the shock normal vector. Further, most (∼79%) of the waves propagate at least 20° from the coplanarity plane. The peak-to-peak wave amplitudes (δBpk-pk) are large with a range of maximum values for the 113 precursors of ∼0.2–13 nT with an average of ∼3 nT. When we normalize the wave amplitudes to the upstream averaged magnetic field and the shock ramp amplitude, we find average values of ∼50% and ∼80%, respectively.",

keywords = "Wind spacecraft, collisionless shock waves, interplanetary shocks, nonlinear waves, wave analysis, whistler mode waves",

author = "Wilson III, {L. B.} and A. Koval and A. Szabo and Stevens, {M. L.} and Kasper, {J. C.} and Cattell, {C. A.} and Krasnoselskikh, {V. V.}",

note = "Funding Information: The authors thank A.F.-Vi{\~n}as, B. Lemb{\`e}ge, L.K. Jian, and J.R. Woodroffe for useful discussions of collisionless shock physics. L.B.W., A.K., and A.S. were partially supported by Wind MO&DA funds/grants (no formal grant numbers); M.L.S. was partially supported by grants NNX14AT26G and NNX13AI75G; J.C.K. was partially supported by grant NNX14AR78G; C.A.C. partially supported by grant NNX16AF80G; and V.V.K. acknowledges financial support from CNES through the grant entitled, “STEREO S-WAVES & Wind Invited Scien tist.” The CFA Interplanetary Shock Database is supported by NASA grant NNX13AI75G. The authors thank the Harvard Smithsonian Center for Astrophysics and the NASA SPDF/ CDAWeb team for the interplanetary shock analysis and Wind data. The Wind shock database can be found at https://www.cfa.harvard.edu/ shocks/wi_data/. Publisher Copyright: Published 2017. This article has been contributed to by US Government employees and their work is in the public domain in the USA.",

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AU - Szabo, A.

AU - Stevens, M. L.

AU - Kasper, J. C.

AU - Cattell, C. A.

AU - Krasnoselskikh, V. V.

N1 - Funding Information: The authors thank A.F.-Viñas, B. Lembège, L.K. Jian, and J.R. Woodroffe for useful discussions of collisionless shock physics. L.B.W., A.K., and A.S. were partially supported by Wind MO&DA funds/grants (no formal grant numbers); M.L.S. was partially supported by grants NNX14AT26G and NNX13AI75G; J.C.K. was partially supported by grant NNX14AR78G; C.A.C. partially supported by grant NNX16AF80G; and V.V.K. acknowledges financial support from CNES through the grant entitled, “STEREO S-WAVES & Wind Invited Scien tist.” The CFA Interplanetary Shock Database is supported by NASA grant NNX13AI75G. The authors thank the Harvard Smithsonian Center for Astrophysics and the NASA SPDF/ CDAWeb team for the interplanetary shock analysis and Wind data. The Wind shock database can be found at https://www.cfa.harvard.edu/ shocks/wi_data/. Publisher Copyright: Published 2017. This article has been contributed to by US Government employees and their work is in the public domain in the USA.

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N2 - A study of the structure of 145 low-Mach number (M≤3), low-beta (β≤1), quasi-perpendicular interplanetary collisionless shock waves observed by the Wind spacecraft has provided strong evidence that these shocks have large-amplitude whistler precursors. The common occurrence and large amplitudes of the precursors raise doubts about the standard assumption that such shocks can be classified as laminar structures. This directly contradicts standard models. In 113 of the 145 shocks (∼78%), we observe clear evidence of magnetosonic-whistler precursor fluctuations with frequencies ∼0.1–7 Hz. We find no dependence on the upstream plasma beta, or any other shock parameter, for the presence or absence of precursors. The majority (∼66%) of the precursors propagate at ≤45° with respect to the upstream average magnetic field and most (∼87%) propagate ≥30° from the shock normal vector. Further, most (∼79%) of the waves propagate at least 20° from the coplanarity plane. The peak-to-peak wave amplitudes (δBpk-pk) are large with a range of maximum values for the 113 precursors of ∼0.2–13 nT with an average of ∼3 nT. When we normalize the wave amplitudes to the upstream averaged magnetic field and the shock ramp amplitude, we find average values of ∼50% and ∼80%, respectively.

AB - A study of the structure of 145 low-Mach number (M≤3), low-beta (β≤1), quasi-perpendicular interplanetary collisionless shock waves observed by the Wind spacecraft has provided strong evidence that these shocks have large-amplitude whistler precursors. The common occurrence and large amplitudes of the precursors raise doubts about the standard assumption that such shocks can be classified as laminar structures. This directly contradicts standard models. In 113 of the 145 shocks (∼78%), we observe clear evidence of magnetosonic-whistler precursor fluctuations with frequencies ∼0.1–7 Hz. We find no dependence on the upstream plasma beta, or any other shock parameter, for the presence or absence of precursors. The majority (∼66%) of the precursors propagate at ≤45° with respect to the upstream average magnetic field and most (∼87%) propagate ≥30° from the shock normal vector. Further, most (∼79%) of the waves propagate at least 20° from the coplanarity plane. The peak-to-peak wave amplitudes (δBpk-pk) are large with a range of maximum values for the 113 precursors of ∼0.2–13 nT with an average of ∼3 nT. When we normalize the wave amplitudes to the upstream averaged magnetic field and the shock ramp amplitude, we find average values of ∼50% and ∼80%, respectively.

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KW - interplanetary shocks

KW - nonlinear waves

KW - wave analysis

KW - whistler mode waves

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Revisiting the structure of low-Mach number, low-beta, quasi-perpendicular shocks

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Keywords

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