Precipitating Electron Energy Flux and Characteristic Energies in Jupiter's Main Auroral Region as Measured by Juno/JEDI
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C. Paranicas | F. Bagenal | S. Bolton | D. Haggerty | G. Murakami | C. Tao | J. Connerney | B. Mauk | Chengcheng Tao | D. Mccomas | E. Bunce | G. Murakami | D. Gershman | D. Haggerty | R. Ebert | F. Bagenal | S. Bolton | S. Levin | P. Kollmann | C. Paranicas | W. Kurth | B. Bonfond | J. Saur | P. Valek | J. Nichols | R. Gladstone | D. J. McComas | J. Saur | J. Connerney | P. Kollmann | R. Gladstone | S. Kotsiaros | G. Clark | B. Bonfond | E. J. Bunce | R. W. Ebert | B. H. Mauk | P. Valek | A. Rymer | D. J. Gershman | G. Clark | J. Nichols | F. Allegrini | T. Kimura | S. Kotsiaros | W. S. Kurth | S. Levin | A. Rymer | F. Allegrini | T. Kimura | D. McComas
[1] M. Allen,et al. Hydrocarbon photochemistry in the upper atmosphere of Jupiter. , 1991, Icarus.
[2] J. Connerney,et al. Energetic particle signatures of magnetic field‐aligned potentials over Jupiter's polar regions , 2017 .
[3] Travis W. Hill,et al. Inertial limit on corotation , 1979 .
[4] J. A. Koehler,et al. Parallel Electric Fields , 1973 .
[5] Denis Grodent,et al. A self‐consistent model of the Jovian auroral thermal structure , 2001 .
[6] Robert W. Ebert,et al. Generation of the Jovian hectometric radiation: First lessons from Juno , 2017 .
[7] B. Mauk,et al. Pitch Angle Scattering of Upgoing Electron Beams in Jupiter's Polar Regions by Whistler Mode Waves , 2018 .
[8] Edmond C. Roelof,et al. Energetic ion characteristics and neutral gas interactions in Jupiter's magnetosphere , 2004 .
[9] R. Ergun,et al. Auroral Signatures of Ionosphere-Magnetosphere Coupling at Jupiter and Saturn , 2013 .
[10] J. Connerney,et al. Modeling the Jovian current sheet and inner magnetosphere , 1981 .
[11] G. Orton,et al. Independent evolution of stratospheric temperatures in Jupiter's northern and southern auroral regions from 2014 to 2016 , 2017 .
[12] J. H. Waite,et al. Thermal profiles in the auroral regions of Jupiter , 1993 .
[13] R. Ergun,et al. Current-voltage relation of a centrifugally confined plasma , 2009 .
[14] A. Adriani,et al. Discrete and broadband electron acceleration in Jupiter’s powerful aurora , 2017, Nature.
[15] J. Connerney,et al. New models of Jupiter's magnetic field constrained by the Io flux tube footprint , 1998 .
[16] E. Lellouch,et al. Photochemistry and diffusion in Jupiter's stratosphere: Constraints from ISO observations and comparisons with other giant planets , 2005 .
[17] R. Schnurr,et al. The Juno Magnetic Field Investigation , 2017 .
[18] R. Elphic,et al. FAST observations in the downward auroral current region: Energetic upgoing electron beams, parallel potential drops, and ion heating , 1998 .
[19] Krishan K. Khurana,et al. Influence of solar wind on Jupiter's magnetosphere deduced from currents in the equatorial plane , 2001 .
[20] P. Louarn,et al. Spatial Distribution and Properties of 0.1–100 keV Electrons in Jupiter's Polar Auroral Region , 2017 .
[21] Y. Yung,et al. Enhanced transport in the polar mesosphere of Jupiter: Evidence from Cassini UVIS helium 584 Å airglow , 2006 .
[22] Emma J. Bunce,et al. Jupiter's polar ionospheric flows: Theoretical interpretation , 2003 .
[23] Travis W. Hill,et al. Corotating magnetospheric convection , 1981 .
[24] R. Wilson,et al. Electron beams and loss cones in the auroral regions of Jupiter , 2017 .
[25] T. Hill,et al. The Jovian auroral oval , 2001 .
[26] R. Elphic,et al. FAST satellite observations of electric field structures in the auroral zone , 1998 .
[27] W. Matthaeus,et al. An acceleration mechanism for the generation of the main auroral oval on Jupiter , 2003 .
[28] Jonathan D. Nichols,et al. Magnetosphere-ionosphere coupling currents in Jupiter's middle magnetosphere: effect of magnetosphere-ionosphere decoupling by field-aligned auroral voltages , 2005 .
[29] S. Cowley. Current-voltage and kinetic energy flux relations for relativistic field-aligned acceleration of auroral electrons , 2006 .
[30] Takeshi Sakanoi,et al. Extreme Ultraviolet Radiation Measurement for Planetary Atmospheres/Magnetospheres from the Earth-Orbiting Spacecraft (Extreme Ultraviolet Spectroscope for Exospheric Dynamics: EXCEED) , 2014, Space Science Reviews.
[31] Denis Grodent,et al. Model of the Jovian magnetic field topology constrained by the Io auroral emissions , 2011 .
[32] George Clark,et al. Juno/JEDI observations of 0.01 to >10 MeV energetic ions in the Jovian auroral regions: Anticipating a source for polar X‐ray emission , 2017 .
[33] H. Keller,et al. The Cassini Ultraviolet Imaging Spectrograph Investigation , 2004 .
[34] R. Ergun,et al. Magnetosphere‐ionosphere coupling at Jupiter: Effect of field‐aligned potentials on angular momentum transport , 2010 .
[35] A. Adriani,et al. Diverse Electron and Ion Acceleration Characteristics Observed Over Jupiter's Main Aurora , 2018 .
[36] Denis Grodent. A Brief Review of Ultraviolet Auroral Emissions on Giant Planets , 2015 .
[37] Barry H. Mauk,et al. The Jupiter Energetic Particle Detector Instrument (JEDI) Investigation for the Juno Mission , 2017 .
[38] Denis Grodent,et al. Mapping the electron energy in Jupiter's aurora: Hubble spectral observations , 2014 .
[39] J. Rouzaud,et al. The Jovian Auroral Distributions Experiment (JADE) on the Juno Mission to Jupiter , 2017 .
[40] J. Connerney,et al. Understanding the Origin of Jupiter's Diffuse Aurora Using Juno's First Perijove Observations , 2017 .
[41] B. Mauk,et al. Observation and interpretation of energetic ion conics in Jupiter's polar magnetosphere , 2017 .
[42] Stephen Knight,et al. Parallel electric fields , 1973 .
[43] J. Gérard,et al. Spectral observations of transient features in the FUV Jovian polar aurora , 2003 .
[44] J. Gérard,et al. Energy‐flux relationship in the FUV Jovian aurora deduced from HST‐STIS spectral observations , 2004 .
[45] W. Matthaeus,et al. Evidence for weak MHD turbulence in the middle magnetosphere of Jupiter , 2002 .
[46] Jonathan D. Nichols,et al. Magnetosphere-ionosphere coupling currents in Jupiter's middle magnetosphere: effect of precipitation-induced enhancement of the ionospheric Pedersen conductivity , 2004 .
[47] Emma J. Bunce,et al. Origin of the main auroral oval in Jupiter's coupled magnetosphere–ionosphere system , 2001 .
[48] B. Mauk,et al. Electron butterfly distributions at particular magnetic latitudes observed during Juno's perijove pass , 2017 .
[49] M. Fujimoto,et al. Variation of Jupiter's aurora observed by Hisaki/EXCEED: 2. Estimations of auroral parameters and magnetospheric dynamics , 2016 .
[50] H. Bridge,et al. A survey of the plasma electron environment of Jupiter: A view from Voyager , 1981 .
[51] William S. Kurth,et al. Magnetospheric interactions with satellites , 2004 .
[52] A. Adriani,et al. Juno observations of energetic charged particles over Jupiter's polar regions: Analysis of monodirectional and bidirectional electron beams , 2017 .