A new view of energetic particles from stream interaction regions observed by Parker Solar Probe

N. A. Schwadron; C. J. Joyce; A. Aly; C. M.S. Cohen; M. I. Desai; D. J. McComas; J. T. Niehof; E. Möbius; M. Lee; J. Bower; S. Bale; A. Case; E. R. Christian; A. J. Davis; W. De Wet; K. Goetz; J. Giacalone; M. E. Hill; R. Allen; J. C. Kasper; K. Korreck; R. A. Leske; O. Malandraki; W. H. Matthaeus; R. L. McNutt; R. A. Mewaldt; D. G. Mitchell; M. Pulupa; J. S. Rankin; E. C. Roelof; E. C. Stone; J. R. Szalay; M. E. Wiedenbeck

doi:10.1051/0004-6361/202039352

A new view of energetic particles from stream interaction regions observed by Parker Solar Probe

N. A. Schwadron, C. J. Joyce, A. Aly, C. M.S. Cohen, M. I. Desai, D. J. McComas, J. T. Niehof, E. Möbius, M. Lee, J. Bower, S. Bale, A. Case, E. R. Christian, A. J. Davis, W. De Wet, K. Goetz, J. Giacalone, M. E. Hill, R. Allen, J. C. KasperK. Korreck, R. A. Leske, O. Malandraki, W. H. Matthaeus, R. L. McNutt, R. A. Mewaldt, D. G. Mitchell, M. Pulupa, J. S. Rankin, E. C. Roelof, E. C. Stone, J. R. Szalay, M. E. Wiedenbeck

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Abstract

Early observations from the first orbit of Parker Solar Probe (PSP) show recurrent stream interaction regions that form close to the Sun. Energetic particle enhancements were observed on the 320th-326th day of the year 2018, which corresponds to ~1-7 days after the passage of the stream interface between faster and slower solar wind. Energetic particles stream into the inner heliosphere to the PSP spacecraft near 0.33 au (71 solar radii) where they are measured by the Integrated Science Investigation of the Sun (IS⊙ IS). The large 6-day time interval over which energetic particles are observed after the stream passage provides a unique perspective on the development of stream interactions within the heliosphere. The long duration of energetic particle enhancements suggests that particles stream in through the inner heliosphere more directly along magnetic field lines that form a sub-Parker spiral structure due to magnetic footpoint motion at the Sun and shearing of the magnetic field in the rarefaction region behind the stream interface. The strong build-up of energetic particle fluxes in the first 3 days after the passage of the stream interface indicates that suprathermal populations are enhanced near the interaction region through compression or other acceleration processes in addition to being diffusively accelerated. The early increases in energetic particle fluxes (in the first 3 days) in the formation of these events allows for the characterization of the acceleration associated with these suprathermal seed populations. Thus, we show that the time history of energetic particle fluxes observed by IS⊙ IS provides a new view of particle acceleration at stream interaction regions throughout the inner heliosphere.

Original language	English (US)
Article number	A24
Journal	Astronomy and astrophysics
Volume	650
DOIs	https://doi.org/10.1051/0004-6361/202039352
State	Published - Jun 1 2021

Keywords

Acceleration of particles
Shock waves
Solar wind
Sun: heliosphere
Sun: magnetic fields

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

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10.1051/0004-6361/202039352

Cite this

Schwadron, N. A., Joyce, C. J., Aly, A., Cohen, C. M. S., Desai, M. I., McComas, D. J., Niehof, J. T., Möbius, E., Lee, M., Bower, J., Bale, S., Case, A., Christian, E. R., Davis, A. J., De Wet, W., Goetz, K., Giacalone, J., Hill, M. E., Allen, R., ... Wiedenbeck, M. E. (2021). A new view of energetic particles from stream interaction regions observed by Parker Solar Probe. Astronomy and astrophysics, 650, [A24]. https://doi.org/10.1051/0004-6361/202039352

Schwadron, NA, Joyce, CJ, Aly, A, Cohen, CMS, Desai, MI, McComas, DJ, Niehof, JT, Möbius, E, Lee, M, Bower, J, Bale, S, Case, A, Christian, ER, Davis, AJ, De Wet, W, Goetz, K, Giacalone, J, Hill, ME, Allen, R, Kasper, JC, Korreck, K, Leske, RA, Malandraki, O, Matthaeus, WH, McNutt, RL, Mewaldt, RA, Mitchell, DG, Pulupa, M, Rankin, JS, Roelof, EC, Stone, EC, Szalay, JR & Wiedenbeck, ME 2021, 'A new view of energetic particles from stream interaction regions observed by Parker Solar Probe', Astronomy and astrophysics, vol. 650, A24. https://doi.org/10.1051/0004-6361/202039352

@article{34022ce8b18844fd89a5e00f6e3f4ac5,

title = "A new view of energetic particles from stream interaction regions observed by Parker Solar Probe",

abstract = "Early observations from the first orbit of Parker Solar Probe (PSP) show recurrent stream interaction regions that form close to the Sun. Energetic particle enhancements were observed on the 320th-326th day of the year 2018, which corresponds to ~1-7 days after the passage of the stream interface between faster and slower solar wind. Energetic particles stream into the inner heliosphere to the PSP spacecraft near 0.33 au (71 solar radii) where they are measured by the Integrated Science Investigation of the Sun (IS⊙ IS). The large 6-day time interval over which energetic particles are observed after the stream passage provides a unique perspective on the development of stream interactions within the heliosphere. The long duration of energetic particle enhancements suggests that particles stream in through the inner heliosphere more directly along magnetic field lines that form a sub-Parker spiral structure due to magnetic footpoint motion at the Sun and shearing of the magnetic field in the rarefaction region behind the stream interface. The strong build-up of energetic particle fluxes in the first 3 days after the passage of the stream interface indicates that suprathermal populations are enhanced near the interaction region through compression or other acceleration processes in addition to being diffusively accelerated. The early increases in energetic particle fluxes (in the first 3 days) in the formation of these events allows for the characterization of the acceleration associated with these suprathermal seed populations. Thus, we show that the time history of energetic particle fluxes observed by IS⊙ IS provides a new view of particle acceleration at stream interaction regions throughout the inner heliosphere.",

keywords = "Acceleration of particles, Shock waves, Solar wind, Sun: heliosphere, Sun: magnetic fields",

author = "Schwadron, {N. A.} and Joyce, {C. J.} and A. Aly and Cohen, {C. M.S.} and Desai, {M. I.} and McComas, {D. J.} and Niehof, {J. T.} and E. M{\"o}bius and M. Lee and J. Bower and S. Bale and A. Case and Christian, {E. R.} and Davis, {A. J.} and {De Wet}, W. and K. Goetz and J. Giacalone and Hill, {M. E.} and R. Allen and Kasper, {J. C.} and K. Korreck and Leske, {R. A.} and O. Malandraki and Matthaeus, {W. H.} and McNutt, {R. L.} and Mewaldt, {R. A.} and Mitchell, {D. G.} and M. Pulupa and Rankin, {J. S.} and Roelof, {E. C.} and Stone, {E. C.} and Szalay, {J. R.} and Wiedenbeck, {M. E.}",

note = "Funding Information: Acknowledgements. We are deeply indebted to everyone that helped make the Parker Solar Probe (PSP) mission possible. We thank all of the outstanding scientists, engineers, technicians, and administrative support people across all of the IS⊙IS, FIELDS and SWEAP institutions that produced and supported the IS⊙IS, FIELDS and SWEAP instrument suites, support its operations and the scientific analysis of its data. This work was supported as part of the PSP mission under contract NNN06AA01C. NAS and CMSC were also supported under LWS grant “New Insights into SEP Sources, Acceleration, and Propagation: an Integrated Observation-Modeling Approach”, grant number 80NSSC19K0067. The IS⊙IS data and visualization tools are available to the community at: https://spacephysics.princeton.edu/missions-instruments/ isois; data are also available via the NASA Space Physics Data Facility (https://spdf.gsfc.nasa.gov/). Parker Solar Probe was designed, built, and is now operated by the Johns Hopkins Applied Physics Laboratory as part of NASA{\textquoteright}s Living with a Star (LWS) program (contract NNN06AA01C). Support from the LWS management and technical team has played a critical role in the success of the Parker Solar Probe mission. Publisher Copyright: {\textcopyright} ESO 2021.",

year = "2021",

month = jun,

day = "1",

doi = "10.1051/0004-6361/202039352",

language = "English (US)",

volume = "650",

journal = "Astronomy and Astrophysics",

issn = "0004-6361",

publisher = "EDP Sciences",

}

TY - JOUR

T1 - A new view of energetic particles from stream interaction regions observed by Parker Solar Probe

AU - Schwadron, N. A.

AU - Joyce, C. J.

AU - Aly, A.

AU - Cohen, C. M.S.

AU - Desai, M. I.

AU - McComas, D. J.

AU - Niehof, J. T.

AU - Möbius, E.

AU - Lee, M.

AU - Bower, J.

AU - Bale, S.

AU - Case, A.

AU - Christian, E. R.

AU - Davis, A. J.

AU - De Wet, W.

AU - Goetz, K.

AU - Giacalone, J.

AU - Hill, M. E.

AU - Allen, R.

AU - Kasper, J. C.

AU - Korreck, K.

AU - Leske, R. A.

AU - Malandraki, O.

AU - Matthaeus, W. H.

AU - McNutt, R. L.

AU - Mewaldt, R. A.

AU - Mitchell, D. G.

AU - Pulupa, M.

AU - Rankin, J. S.

AU - Roelof, E. C.

AU - Stone, E. C.

AU - Szalay, J. R.

AU - Wiedenbeck, M. E.

N1 - Funding Information: Acknowledgements. We are deeply indebted to everyone that helped make the Parker Solar Probe (PSP) mission possible. We thank all of the outstanding scientists, engineers, technicians, and administrative support people across all of the IS⊙IS, FIELDS and SWEAP institutions that produced and supported the IS⊙IS, FIELDS and SWEAP instrument suites, support its operations and the scientific analysis of its data. This work was supported as part of the PSP mission under contract NNN06AA01C. NAS and CMSC were also supported under LWS grant “New Insights into SEP Sources, Acceleration, and Propagation: an Integrated Observation-Modeling Approach”, grant number 80NSSC19K0067. The IS⊙IS data and visualization tools are available to the community at: https://spacephysics.princeton.edu/missions-instruments/ isois; data are also available via the NASA Space Physics Data Facility (https://spdf.gsfc.nasa.gov/). Parker Solar Probe was designed, built, and is now operated by the Johns Hopkins Applied Physics Laboratory as part of NASA’s Living with a Star (LWS) program (contract NNN06AA01C). Support from the LWS management and technical team has played a critical role in the success of the Parker Solar Probe mission. Publisher Copyright: © ESO 2021.

PY - 2021/6/1

Y1 - 2021/6/1

N2 - Early observations from the first orbit of Parker Solar Probe (PSP) show recurrent stream interaction regions that form close to the Sun. Energetic particle enhancements were observed on the 320th-326th day of the year 2018, which corresponds to ~1-7 days after the passage of the stream interface between faster and slower solar wind. Energetic particles stream into the inner heliosphere to the PSP spacecraft near 0.33 au (71 solar radii) where they are measured by the Integrated Science Investigation of the Sun (IS⊙ IS). The large 6-day time interval over which energetic particles are observed after the stream passage provides a unique perspective on the development of stream interactions within the heliosphere. The long duration of energetic particle enhancements suggests that particles stream in through the inner heliosphere more directly along magnetic field lines that form a sub-Parker spiral structure due to magnetic footpoint motion at the Sun and shearing of the magnetic field in the rarefaction region behind the stream interface. The strong build-up of energetic particle fluxes in the first 3 days after the passage of the stream interface indicates that suprathermal populations are enhanced near the interaction region through compression or other acceleration processes in addition to being diffusively accelerated. The early increases in energetic particle fluxes (in the first 3 days) in the formation of these events allows for the characterization of the acceleration associated with these suprathermal seed populations. Thus, we show that the time history of energetic particle fluxes observed by IS⊙ IS provides a new view of particle acceleration at stream interaction regions throughout the inner heliosphere.

AB - Early observations from the first orbit of Parker Solar Probe (PSP) show recurrent stream interaction regions that form close to the Sun. Energetic particle enhancements were observed on the 320th-326th day of the year 2018, which corresponds to ~1-7 days after the passage of the stream interface between faster and slower solar wind. Energetic particles stream into the inner heliosphere to the PSP spacecraft near 0.33 au (71 solar radii) where they are measured by the Integrated Science Investigation of the Sun (IS⊙ IS). The large 6-day time interval over which energetic particles are observed after the stream passage provides a unique perspective on the development of stream interactions within the heliosphere. The long duration of energetic particle enhancements suggests that particles stream in through the inner heliosphere more directly along magnetic field lines that form a sub-Parker spiral structure due to magnetic footpoint motion at the Sun and shearing of the magnetic field in the rarefaction region behind the stream interface. The strong build-up of energetic particle fluxes in the first 3 days after the passage of the stream interface indicates that suprathermal populations are enhanced near the interaction region through compression or other acceleration processes in addition to being diffusively accelerated. The early increases in energetic particle fluxes (in the first 3 days) in the formation of these events allows for the characterization of the acceleration associated with these suprathermal seed populations. Thus, we show that the time history of energetic particle fluxes observed by IS⊙ IS provides a new view of particle acceleration at stream interaction regions throughout the inner heliosphere.

KW - Acceleration of particles

KW - Shock waves

KW - Solar wind

KW - Sun: heliosphere

KW - Sun: magnetic fields

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JO - Astronomy and Astrophysics

JF - Astronomy and Astrophysics

SN - 0004-6361

M1 - A24

ER -

A new view of energetic particles from stream interaction regions observed by Parker Solar Probe

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