Parker Solar Probe: Four Years of Discoveries at Solar Cycle Minimum

N. E. Raouafi; L. Matteini; J. Squire; S. T. Badman; M. Velli; K. G. Klein; C. H.K. Chen; W. H. Matthaeus; A. Szabo; M. Linton; R. C. Allen; J. R. Szalay; R. Bruno; R. B. Decker; M. Akhavan-Tafti; O. V. Agapitov; S. D. Bale; R. Bandyopadhyay; K. Battams; L. Berčič; S. Bourouaine; T. A. Bowen; C. Cattell; B. D.G. Chandran; R. Chhiber; C. M.S. Cohen; R. D’Amicis; J. Giacalone; P. Hess; R. A. Howard; T. S. Horbury; V. K. Jagarlamudi; C. J. Joyce; J. C. Kasper; J. Kinnison; R. Laker; P. Liewer; D. M. Malaspina; I. Mann; D. J. McComas; T. Niembro-Hernandez; T. Nieves-Chinchilla; O. Panasenco; P. Pokorný; A. Pusack; M. Pulupa; J. C. Perez; P. Riley; A. P. Rouillard; C. Shi; G. Stenborg; A. Tenerani; J. L. Verniero; N. Viall; A. Vourlidas; B. E. Wood; L. D. Woodham; T. Woolley

doi:10.1007/s11214-023-00952-4

Parker Solar Probe: Four Years of Discoveries at Solar Cycle Minimum

N. E. Raouafi, L. Matteini, J. Squire, S. T. Badman, M. Velli, K. G. Klein, C. H.K. Chen, W. H. Matthaeus, A. Szabo, M. Linton, R. C. Allen, J. R. Szalay, R. Bruno, R. B. Decker, M. Akhavan-Tafti, O. V. Agapitov, S. D. Bale, R. Bandyopadhyay, K. Battams, L. BerčičS. Bourouaine, T. A. Bowen, C. Cattell, B. D.G. Chandran, R. Chhiber, C. M.S. Cohen, R. D’Amicis, J. Giacalone, P. Hess, R. A. Howard, T. S. Horbury, V. K. Jagarlamudi, C. J. Joyce, J. C. Kasper, J. Kinnison, R. Laker, P. Liewer, D. M. Malaspina, I. Mann, D. J. McComas, T. Niembro-Hernandez, T. Nieves-Chinchilla, O. Panasenco, P. Pokorný, A. Pusack, M. Pulupa, J. C. Perez, P. Riley, A. P. Rouillard, C. Shi, G. Stenborg, A. Tenerani, J. L. Verniero, N. Viall, A. Vourlidas, B. E. Wood, L. D. Woodham, T. Woolley

Research output: Contribution to journal › Review article › peer-review

47 Scopus citations

Abstract

Launched on 12 Aug. 2018, NASA’s Parker Solar Probe had completed 13 of its scheduled 24 orbits around the Sun by Nov. 2022. The mission’s primary science goal is to determine the structure and dynamics of the Sun’s coronal magnetic field, understand how the solar corona and wind are heated and accelerated, and determine what processes accelerate energetic particles. Parker Solar Probe returned a treasure trove of science data that far exceeded quality, significance, and quantity expectations, leading to a significant number of discoveries reported in nearly 700 peer-reviewed publications. The first four years of the 7-year primary mission duration have been mostly during solar minimum conditions with few major solar events. Starting with orbit 8 (i.e., 28 Apr. 2021), Parker flew through the magnetically dominated corona, i.e., sub-Alfvénic solar wind, which is one of the mission’s primary objectives. In this paper, we present an overview of the scientific advances made mainly during the first four years of the Parker Solar Probe mission, which go well beyond the three science objectives that are: (1) Trace the flow of energy that heats and accelerates the solar corona and solar wind; (2) Determine the structure and dynamics of the plasma and magnetic fields at the sources of the solar wind; and (3) Explore mechanisms that accelerate and transport energetic particles.

Original language	English (US)
Article number	8
Journal	Space Science Reviews
Volume	219
Issue number	1
DOIs	https://doi.org/10.1007/s11214-023-00952-4
State	Published - Feb 2023
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2023, The Author(s).

Keywords

Corona
Coronal mass ejections
Magnetic fields
Parker solar probe
Plasma
Solar wind
Sun

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Raouafi, N. E., Matteini, L., Squire, J., Badman, S. T., Velli, M., Klein, K. G., Chen, C. H. K., Matthaeus, W. H., Szabo, A., Linton, M., Allen, R. C., Szalay, J. R., Bruno, R., Decker, R. B., Akhavan-Tafti, M., Agapitov, O. V., Bale, S. D., Bandyopadhyay, R., Battams, K., ... Woolley, T. (2023). Parker Solar Probe: Four Years of Discoveries at Solar Cycle Minimum. Space Science Reviews, 219(1), Article 8. https://doi.org/10.1007/s11214-023-00952-4

Raouafi, NE, Matteini, L, Squire, J, Badman, ST, Velli, M, Klein, KG, Chen, CHK, Matthaeus, WH, Szabo, A, Linton, M, Allen, RC, Szalay, JR, Bruno, R, Decker, RB, Akhavan-Tafti, M, Agapitov, OV, Bale, SD, Bandyopadhyay, R, Battams, K, Berčič, L, Bourouaine, S, Bowen, TA, Cattell, C, Chandran, BDG, Chhiber, R, Cohen, CMS, D’Amicis, R, Giacalone, J, Hess, P, Howard, RA, Horbury, TS, Jagarlamudi, VK, Joyce, CJ, Kasper, JC, Kinnison, J, Laker, R, Liewer, P, Malaspina, DM, Mann, I, McComas, DJ, Niembro-Hernandez, T, Nieves-Chinchilla, T, Panasenco, O, Pokorný, P, Pusack, A, Pulupa, M, Perez, JC, Riley, P, Rouillard, AP, Shi, C, Stenborg, G, Tenerani, A, Verniero, JL, Viall, N, Vourlidas, A, Wood, BE, Woodham, LD & Woolley, T 2023, 'Parker Solar Probe: Four Years of Discoveries at Solar Cycle Minimum', Space Science Reviews, vol. 219, no. 1, 8. https://doi.org/10.1007/s11214-023-00952-4

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abstract = "Launched on 12 Aug. 2018, NASA{\textquoteright}s Parker Solar Probe had completed 13 of its scheduled 24 orbits around the Sun by Nov. 2022. The mission{\textquoteright}s primary science goal is to determine the structure and dynamics of the Sun{\textquoteright}s coronal magnetic field, understand how the solar corona and wind are heated and accelerated, and determine what processes accelerate energetic particles. Parker Solar Probe returned a treasure trove of science data that far exceeded quality, significance, and quantity expectations, leading to a significant number of discoveries reported in nearly 700 peer-reviewed publications. The first four years of the 7-year primary mission duration have been mostly during solar minimum conditions with few major solar events. Starting with orbit 8 (i.e., 28 Apr. 2021), Parker flew through the magnetically dominated corona, i.e., sub-Alfv{\'e}nic solar wind, which is one of the mission{\textquoteright}s primary objectives. In this paper, we present an overview of the scientific advances made mainly during the first four years of the Parker Solar Probe mission, which go well beyond the three science objectives that are: (1) Trace the flow of energy that heats and accelerates the solar corona and solar wind; (2) Determine the structure and dynamics of the plasma and magnetic fields at the sources of the solar wind; and (3) Explore mechanisms that accelerate and transport energetic particles.",

keywords = "Corona, Coronal mass ejections, Magnetic fields, Parker solar probe, Plasma, Solar wind, Sun",

author = "Raouafi, {N. E.} and L. Matteini and J. Squire and Badman, {S. T.} and M. Velli and Klein, {K. G.} and Chen, {C. H.K.} and Matthaeus, {W. H.} and A. Szabo and M. Linton and Allen, {R. C.} and Szalay, {J. R.} and R. Bruno and Decker, {R. B.} and M. Akhavan-Tafti and Agapitov, {O. V.} and Bale, {S. D.} and R. Bandyopadhyay and K. Battams and L. Ber{\v c}i{\v c} and S. Bourouaine and Bowen, {T. A.} and C. Cattell and Chandran, {B. D.G.} and R. Chhiber and Cohen, {C. M.S.} and R. D{\textquoteright}Amicis and J. Giacalone and P. Hess and Howard, {R. A.} and Horbury, {T. S.} and Jagarlamudi, {V. K.} and Joyce, {C. J.} and Kasper, {J. C.} and J. Kinnison and R. Laker and P. Liewer and Malaspina, {D. M.} and I. Mann and McComas, {D. J.} and T. Niembro-Hernandez and T. Nieves-Chinchilla and O. Panasenco and P. Pokorn{\'y} and A. Pusack and M. Pulupa and Perez, {J. C.} and P. Riley and Rouillard, {A. P.} and C. Shi and G. Stenborg and A. Tenerani and Verniero, {J. L.} and N. Viall and A. Vourlidas and Wood, {B. E.} and Woodham, {L. D.} and T. Woolley",

note = "Publisher Copyright: {\textcopyright} 2023, The Author(s).",

year = "2023",

month = feb,

doi = "10.1007/s11214-023-00952-4",

language = "English (US)",

volume = "219",

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T2 - Four Years of Discoveries at Solar Cycle Minimum

AU - Raouafi, N. E.

AU - Matteini, L.

AU - Squire, J.

AU - Badman, S. T.

AU - Velli, M.

AU - Klein, K. G.

AU - Chen, C. H.K.

AU - Matthaeus, W. H.

AU - Szabo, A.

AU - Linton, M.

AU - Allen, R. C.

AU - Szalay, J. R.

AU - Bruno, R.

AU - Decker, R. B.

AU - Akhavan-Tafti, M.

AU - Agapitov, O. V.

AU - Bale, S. D.

AU - Bandyopadhyay, R.

AU - Battams, K.

AU - Berčič, L.

AU - Bourouaine, S.

AU - Bowen, T. A.

AU - Cattell, C.

AU - Chandran, B. D.G.

AU - Chhiber, R.

AU - Cohen, C. M.S.

AU - D’Amicis, R.

AU - Giacalone, J.

AU - Hess, P.

AU - Howard, R. A.

AU - Horbury, T. S.

AU - Jagarlamudi, V. K.

AU - Joyce, C. J.

AU - Kasper, J. C.

AU - Kinnison, J.

AU - Laker, R.

AU - Liewer, P.

AU - Malaspina, D. M.

AU - Mann, I.

AU - McComas, D. J.

AU - Niembro-Hernandez, T.

AU - Nieves-Chinchilla, T.

AU - Panasenco, O.

AU - Pokorný, P.

AU - Pusack, A.

AU - Pulupa, M.

AU - Perez, J. C.

AU - Riley, P.

AU - Rouillard, A. P.

AU - Shi, C.

AU - Stenborg, G.

AU - Tenerani, A.

AU - Verniero, J. L.

AU - Viall, N.

AU - Vourlidas, A.

AU - Wood, B. E.

AU - Woodham, L. D.

AU - Woolley, T.

PY - 2023/2

Y1 - 2023/2

N2 - Launched on 12 Aug. 2018, NASA’s Parker Solar Probe had completed 13 of its scheduled 24 orbits around the Sun by Nov. 2022. The mission’s primary science goal is to determine the structure and dynamics of the Sun’s coronal magnetic field, understand how the solar corona and wind are heated and accelerated, and determine what processes accelerate energetic particles. Parker Solar Probe returned a treasure trove of science data that far exceeded quality, significance, and quantity expectations, leading to a significant number of discoveries reported in nearly 700 peer-reviewed publications. The first four years of the 7-year primary mission duration have been mostly during solar minimum conditions with few major solar events. Starting with orbit 8 (i.e., 28 Apr. 2021), Parker flew through the magnetically dominated corona, i.e., sub-Alfvénic solar wind, which is one of the mission’s primary objectives. In this paper, we present an overview of the scientific advances made mainly during the first four years of the Parker Solar Probe mission, which go well beyond the three science objectives that are: (1) Trace the flow of energy that heats and accelerates the solar corona and solar wind; (2) Determine the structure and dynamics of the plasma and magnetic fields at the sources of the solar wind; and (3) Explore mechanisms that accelerate and transport energetic particles.

AB - Launched on 12 Aug. 2018, NASA’s Parker Solar Probe had completed 13 of its scheduled 24 orbits around the Sun by Nov. 2022. The mission’s primary science goal is to determine the structure and dynamics of the Sun’s coronal magnetic field, understand how the solar corona and wind are heated and accelerated, and determine what processes accelerate energetic particles. Parker Solar Probe returned a treasure trove of science data that far exceeded quality, significance, and quantity expectations, leading to a significant number of discoveries reported in nearly 700 peer-reviewed publications. The first four years of the 7-year primary mission duration have been mostly during solar minimum conditions with few major solar events. Starting with orbit 8 (i.e., 28 Apr. 2021), Parker flew through the magnetically dominated corona, i.e., sub-Alfvénic solar wind, which is one of the mission’s primary objectives. In this paper, we present an overview of the scientific advances made mainly during the first four years of the Parker Solar Probe mission, which go well beyond the three science objectives that are: (1) Trace the flow of energy that heats and accelerates the solar corona and solar wind; (2) Determine the structure and dynamics of the plasma and magnetic fields at the sources of the solar wind; and (3) Explore mechanisms that accelerate and transport energetic particles.

KW - Corona

KW - Coronal mass ejections

KW - Magnetic fields

KW - Parker solar probe

KW - Plasma

KW - Solar wind

KW - Sun

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DO - 10.1007/s11214-023-00952-4

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JO - Space Science Reviews

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IS - 1

M1 - 8

ER -

Parker Solar Probe: Four Years of Discoveries at Solar Cycle Minimum

Abstract

Bibliographical note

Keywords

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