Literature DB >> 28546207

Jupiter's magnetosphere and aurorae observed by the Juno spacecraft during its first polar orbits.

J E P Connerney1,2, A Adriani3, F Allegrini4, F Bagenal5, S J Bolton4, B Bonfond6, S W H Cowley7, J-C Gerard6, G R Gladstone4, D Grodent6, G Hospodarsky8, J L Jorgensen9, W S Kurth8, S M Levin10, B Mauk11, D J McComas12, A Mura3, C Paranicas11, E J Smith10, R M Thorne13, P Valek4, J Waite4.   

Abstract

The Juno spacecraft acquired direct observations of the jovian magnetosphere and auroral emissions from a vantage point above the poles. Juno's capture orbit spanned the jovian magnetosphere from bow shock to the planet, providing magnetic field, charged particle, and wave phenomena context for Juno's passage over the poles and traverse of Jupiter's hazardous inner radiation belts. Juno's energetic particle and plasma detectors measured electrons precipitating in the polar regions, exciting intense aurorae, observed simultaneously by the ultraviolet and infrared imaging spectrographs. Juno transited beneath the most intense parts of the radiation belts, passed about 4000 kilometers above the cloud tops at closest approach, well inside the jovian rings, and recorded the electrical signatures of high-velocity impacts with small particles as it traversed the equator.
Copyright © 2017, American Association for the Advancement of Science.

Year:  2017        PMID: 28546207     DOI: 10.1126/science.aam5928

Source DB:  PubMed          Journal:  Science        ISSN: 0036-8075            Impact factor:   47.728


  6 in total

1.  Juno Observations of Heavy Ion Energization During Transient Dipolarizations in Jupiter Magnetotail.

Authors:  A V Artemyev; G Clark; B Mauk; M F Vogt; X-J Zhang
Journal:  J Geophys Res Space Phys       Date:  2020-05-07       Impact factor: 2.811

2.  Clusters of cyclones encircling Jupiter's poles.

Authors:  A Adriani; A Mura; G Orton; C Hansen; F Altieri; M L Moriconi; J Rogers; G Eichstädt; T Momary; A P Ingersoll; G Filacchione; G Sindoni; F Tabataba-Vakili; B M Dinelli; F Fabiano; S J Bolton; J E P Connerney; S K Atreya; J I Lunine; F Tosi; A Migliorini; D Grassi; G Piccioni; R Noschese; A Cicchetti; C Plainaki; A Olivieri; M E O'Neill; D Turrini; S Stefani; R Sordini; M Amoroso
Journal:  Nature       Date:  2018-03-07       Impact factor: 49.962

3.  Discrete and broadband electron acceleration in Jupiter's powerful aurora.

Authors:  B H Mauk; D K Haggerty; C Paranicas; G Clark; P Kollmann; A M Rymer; S J Bolton; S M Levin; A Adriani; F Allegrini; F Bagenal; B Bonfond; J E P Connerney; G R Gladstone; W S Kurth; D J McComas; P Valek
Journal:  Nature       Date:  2017-09-06       Impact factor: 49.962

4.  Demonstration of X-ray Thomson scattering as diagnostics for miscibility in warm dense matter.

Authors:  S Frydrych; J Vorberger; N J Hartley; A K Schuster; K Ramakrishna; A M Saunders; T van Driel; R W Falcone; L B Fletcher; E Galtier; E J Gamboa; S H Glenzer; E Granados; M J MacDonald; A J MacKinnon; E E McBride; I Nam; P Neumayer; A Pak; K Voigt; M Roth; P Sun; D O Gericke; T Döppner; D Kraus
Journal:  Nat Commun       Date:  2020-05-26       Impact factor: 14.919

5.  Evidence for low density holes in Jupiter's ionosphere.

Authors:  Masafumi Imai; Ivana Kolmašová; William S Kurth; Ondřej Santolík; George B Hospodarsky; Donald A Gurnett; Shannon T Brown; Scott J Bolton; John E P Connerney; Steven M Levin
Journal:  Nat Commun       Date:  2019-06-21       Impact factor: 14.919

6.  Juno-UVS approach observations of Jupiter's auroras.

Authors:  G R Gladstone; M H Versteeg; T K Greathouse; V Hue; M W Davis; J-C Gérard; D C Grodent; B Bonfond; J D Nichols; R J Wilson; G B Hospodarsky; S J Bolton; S M Levin; J E P Connerney; A Adriani; W S Kurth; B H Mauk; P Valek; D J McComas; G S Orton; F Bagenal
Journal:  Geophys Res Lett       Date:  2017-08-04       Impact factor: 4.720
  6 in total

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