Small-scale Magnetic Flux Ropes in the First Two Parker Solar Probe Encounters

Yu Chen; Qiang Hu; Lingling Zhao; Justin C. Kasper; Stuart D. Bale; Kelly E. Korreck; Anthony W. Case; Michael L. Stevens; John W. Bonnell; Keith Goetz; Peter R. Harvey; Kristopher G. Klein; Davin E. Larson; Roberto Livi; Robert J. MacDowall; David M. Malaspina; Marc Pulupa; Phyllis L. Whittlesey

doi:10.3847/1538-4357/abb820

Small-scale Magnetic Flux Ropes in the First Two Parker Solar Probe Encounters

Yu Chen, Qiang Hu, Lingling Zhao, Justin C. Kasper, Stuart D. Bale, Kelly E. Korreck, Anthony W. Case, Michael L. Stevens, John W. Bonnell, Keith Goetz, Peter R. Harvey, Kristopher G. Klein, Davin E. Larson, Roberto Livi, Robert J. MacDowall, David M. Malaspina, Marc Pulupa, Phyllis L. Whittlesey

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25 Scopus citations

Abstract

Small-scale magnetic flux ropes (SFRs) are a type of structure in the solar wind that possess helical magnetic field lines. In a recent report we presented the radial variations of the properties of SFRs from 0.29 to 8 au using in situ measurements from the Helios, Advanced Composition Explorer/WIND (ACE/Wind), Ulysses, and Voyager spacecrafts. With the launch of the Parker Solar Probe (PSP), we extend our previous investigation further into the inner heliosphere. We apply a Grad–Shafranov-based algorithm to identify SFRs during the first two PSP encounters. We find that the number of SFRs detected near the Sun is much less than at larger radial distances, where magnetohydrodynamic (MHD) turbulence may act as the local source to produce these structures. The prevalence of Alfvénic structures significantly suppresses the detection of SFRs at closer distances. We compare the SFR event list with other event identification methods, yielding a dozen well-matched events. The cross-section maps of two selected events confirm the cylindrical magnetic flux-rope configuration. The power-law relation between the SFR magnetic field and heliocentric distances seems to hold down to 0.16 au.

Original language	English (US)
Article number	76
Journal	Astrophysical Journal
Volume	903
Issue number	1
DOIs	https://doi.org/10.3847/1538-4357/abb820
State	Published - Nov 1 2020

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

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Chen, Y., Hu, Q., Zhao, L., Kasper, J. C., Bale, S. D., Korreck, K. E., Case, A. W., Stevens, M. L., Bonnell, J. W., Goetz, K., Harvey, P. R., Klein, K. G., Larson, D. E., Livi, R., MacDowall, R. J., Malaspina, D. M., Pulupa, M., & Whittlesey, P. L. (2020). Small-scale Magnetic Flux Ropes in the First Two Parker Solar Probe Encounters. Astrophysical Journal, 903(1), Article 76. https://doi.org/10.3847/1538-4357/abb820

Chen, Y, Hu, Q, Zhao, L, Kasper, JC, Bale, SD, Korreck, KE, Case, AW, Stevens, ML, Bonnell, JW, Goetz, K, Harvey, PR, Klein, KG, Larson, DE, Livi, R, MacDowall, RJ, Malaspina, DM, Pulupa, M & Whittlesey, PL 2020, 'Small-scale Magnetic Flux Ropes in the First Two Parker Solar Probe Encounters', Astrophysical Journal, vol. 903, no. 1, 76. https://doi.org/10.3847/1538-4357/abb820

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abstract = "Small-scale magnetic flux ropes (SFRs) are a type of structure in the solar wind that possess helical magnetic field lines. In a recent report we presented the radial variations of the properties of SFRs from 0.29 to 8 au using in situ measurements from the Helios, Advanced Composition Explorer/WIND (ACE/Wind), Ulysses, and Voyager spacecrafts. With the launch of the Parker Solar Probe (PSP), we extend our previous investigation further into the inner heliosphere. We apply a Grad–Shafranov-based algorithm to identify SFRs during the first two PSP encounters. We find that the number of SFRs detected near the Sun is much less than at larger radial distances, where magnetohydrodynamic (MHD) turbulence may act as the local source to produce these structures. The prevalence of Alfv{\'e}nic structures significantly suppresses the detection of SFRs at closer distances. We compare the SFR event list with other event identification methods, yielding a dozen well-matched events. The cross-section maps of two selected events confirm the cylindrical magnetic flux-rope configuration. The power-law relation between the SFR magnetic field and heliocentric distances seems to hold down to 0.16 au.",

author = "Yu Chen and Qiang Hu and Lingling Zhao and Kasper, {Justin C.} and Bale, {Stuart D.} and Korreck, {Kelly E.} and Case, {Anthony W.} and Stevens, {Michael L.} and Bonnell, {John W.} and Keith Goetz and Harvey, {Peter R.} and Klein, {Kristopher G.} and Larson, {Davin E.} and Roberto Livi and MacDowall, {Robert J.} and Malaspina, {David M.} and Marc Pulupa and Whittlesey, {Phyllis L.}",

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AU - Hu, Qiang

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AU - Kasper, Justin C.

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AU - Korreck, Kelly E.

AU - Case, Anthony W.

AU - Stevens, Michael L.

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AU - Goetz, Keith

AU - Harvey, Peter R.

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AU - Larson, Davin E.

AU - Livi, Roberto

AU - MacDowall, Robert J.

AU - Malaspina, David M.

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AU - Whittlesey, Phyllis L.

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N2 - Small-scale magnetic flux ropes (SFRs) are a type of structure in the solar wind that possess helical magnetic field lines. In a recent report we presented the radial variations of the properties of SFRs from 0.29 to 8 au using in situ measurements from the Helios, Advanced Composition Explorer/WIND (ACE/Wind), Ulysses, and Voyager spacecrafts. With the launch of the Parker Solar Probe (PSP), we extend our previous investigation further into the inner heliosphere. We apply a Grad–Shafranov-based algorithm to identify SFRs during the first two PSP encounters. We find that the number of SFRs detected near the Sun is much less than at larger radial distances, where magnetohydrodynamic (MHD) turbulence may act as the local source to produce these structures. The prevalence of Alfvénic structures significantly suppresses the detection of SFRs at closer distances. We compare the SFR event list with other event identification methods, yielding a dozen well-matched events. The cross-section maps of two selected events confirm the cylindrical magnetic flux-rope configuration. The power-law relation between the SFR magnetic field and heliocentric distances seems to hold down to 0.16 au.

AB - Small-scale magnetic flux ropes (SFRs) are a type of structure in the solar wind that possess helical magnetic field lines. In a recent report we presented the radial variations of the properties of SFRs from 0.29 to 8 au using in situ measurements from the Helios, Advanced Composition Explorer/WIND (ACE/Wind), Ulysses, and Voyager spacecrafts. With the launch of the Parker Solar Probe (PSP), we extend our previous investigation further into the inner heliosphere. We apply a Grad–Shafranov-based algorithm to identify SFRs during the first two PSP encounters. We find that the number of SFRs detected near the Sun is much less than at larger radial distances, where magnetohydrodynamic (MHD) turbulence may act as the local source to produce these structures. The prevalence of Alfvénic structures significantly suppresses the detection of SFRs at closer distances. We compare the SFR event list with other event identification methods, yielding a dozen well-matched events. The cross-section maps of two selected events confirm the cylindrical magnetic flux-rope configuration. The power-law relation between the SFR magnetic field and heliocentric distances seems to hold down to 0.16 au.

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Small-scale Magnetic Flux Ropes in the First Two Parker Solar Probe Encounters

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