Magnetotail Reconnection at Jupiter: A Survey of Juno Magnetic Field Observations

At Jupiter, tail reconnection is thought to be driven by an internal mass loading and release process called the Vasyliunas cycle. Galileo data have shown hundreds of reconnection events occurring in Jupiter's magnetotail. Here we present a survey of reconnection events observed by Juno during...

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Veröffentlicht in:	Journal of geophysical research. Space physics 2020-03, Vol.125 (3)
Hauptverfasser:	Vogt, Marissa F, Connerney, John E P, DiBraccio, Gina A, Wilson, Rob J, Thomsen, Michelle F, Ebert, Robert W, Clark, George B, Paranicas, Christopher, Kurth, William S, Allegrini, Frédéric, Valek, Phil W, Bolton, Scott J
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Sprache:	eng
Schlagworte:	Datasets Galileo project Jupiter Jupiter probes Magnetic field reconnection Magnetic fields Magnetic reconnection Magnetic signatures Magnetism Magnetometers Magnetotail reconnection Magnetotails Periodic variations Planetary magnetic fields Planetary magnetospheres Planetary magnetotails Polls & surveys Radial flow Space missions Spacecraft Spatial distribution
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creator	Vogt, Marissa F Connerney, John E P DiBraccio, Gina A Wilson, Rob J Thomsen, Michelle F Ebert, Robert W Clark, George B Paranicas, Christopher Kurth, William S Allegrini, Frédéric Valek, Phil W Bolton, Scott J
description	At Jupiter, tail reconnection is thought to be driven by an internal mass loading and release process called the Vasyliunas cycle. Galileo data have shown hundreds of reconnection events occurring in Jupiter's magnetotail. Here we present a survey of reconnection events observed by Juno during its first 16 orbits of Jupiter (July 2016-October 2018). The events are identified using Juno magnetic field data, which facilitates comparison to the Vogt et al. (2010, https://doi.org/10.1029/2009JA015098) survey of reconnection events from Galileo magnetometer data, but we present data from Juno's other particle and fields instruments for context. We searched for field dipolarizations or reversals and found 232 reconnection events in the Juno data, most of which featured an increase in \| \|, the magnetic field meridional component, by a factor of 3 over background values. We found that most properties of the Juno reconnection events, like their spatial distribution and duration, are comparable to Galileo, including the presence of a ~3-day quasi-periodicity in the recurrence of Juno tail reconnection events and in Juno JEDI, JADE, and Waves data. However, unlike with Galileo we were unable to clearly define a statistical x-line separating planetward and tailward Juno events. A preliminary analysis of plasma velocities during five magnetic field reconnection events showed that the events were accompanied by fast radial flows, confirming our interpretation of these magnetic signatures as reconnection events. We anticipate that a future survey covering other Juno datasets will provide additional insight into the nature of tail reconnection at Jupiter.
doi_str_mv	10.1029/2019ja027486
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Galileo data have shown hundreds of reconnection events occurring in Jupiter's magnetotail. Here we present a survey of reconnection events observed by Juno during its first 16 orbits of Jupiter (July 2016-October 2018). The events are identified using Juno magnetic field data, which facilitates comparison to the Vogt et al. (2010, https://doi.org/10.1029/2009JA015098) survey of reconnection events from Galileo magnetometer data, but we present data from Juno's other particle and fields instruments for context. We searched for field dipolarizations or reversals and found 232 reconnection events in the Juno data, most of which featured an increase in \| \|, the magnetic field meridional component, by a factor of 3 over background values. We found that most properties of the Juno reconnection events, like their spatial distribution and duration, are comparable to Galileo, including the presence of a ~3-day quasi-periodicity in the recurrence of Juno tail reconnection events and in Juno JEDI, JADE, and Waves data. However, unlike with Galileo we were unable to clearly define a statistical x-line separating planetward and tailward Juno events. A preliminary analysis of plasma velocities during five magnetic field reconnection events showed that the events were accompanied by fast radial flows, confirming our interpretation of these magnetic signatures as reconnection events. We anticipate that a future survey covering other Juno datasets will provide additional insight into the nature of tail reconnection at Jupiter.</description><identifier>ISSN: 2169-9380</identifier><identifier>EISSN: 2169-9402</identifier><identifier>DOI: 10.1029/2019ja027486</identifier><identifier>PMID: 32874821</identifier><language>eng</language><publisher>United States: Blackwell Publishing Ltd</publisher><subject>Datasets ; Galileo project ; Jupiter ; Jupiter probes ; Magnetic field reconnection ; Magnetic fields ; Magnetic reconnection ; Magnetic signatures ; Magnetism ; Magnetometers ; Magnetotail reconnection ; Magnetotails ; Periodic variations ; Planetary magnetic fields ; Planetary magnetospheres ; Planetary magnetotails ; Polls & surveys ; Radial flow ; Space missions ; Spacecraft ; Spatial distribution</subject><ispartof>Journal of geophysical research. Space physics, 2020-03, Vol.125 (3)</ispartof><rights>2020. American Geophysical Union. 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Space physics</title><addtitle>J Geophys Res Space Phys</addtitle><description>At Jupiter, tail reconnection is thought to be driven by an internal mass loading and release process called the Vasyliunas cycle. Galileo data have shown hundreds of reconnection events occurring in Jupiter's magnetotail. Here we present a survey of reconnection events observed by Juno during its first 16 orbits of Jupiter (July 2016-October 2018). The events are identified using Juno magnetic field data, which facilitates comparison to the Vogt et al. (2010, https://doi.org/10.1029/2009JA015098) survey of reconnection events from Galileo magnetometer data, but we present data from Juno's other particle and fields instruments for context. We searched for field dipolarizations or reversals and found 232 reconnection events in the Juno data, most of which featured an increase in \| \|, the magnetic field meridional component, by a factor of 3 over background values. We found that most properties of the Juno reconnection events, like their spatial distribution and duration, are comparable to Galileo, including the presence of a ~3-day quasi-periodicity in the recurrence of Juno tail reconnection events and in Juno JEDI, JADE, and Waves data. However, unlike with Galileo we were unable to clearly define a statistical x-line separating planetward and tailward Juno events. A preliminary analysis of plasma velocities during five magnetic field reconnection events showed that the events were accompanied by fast radial flows, confirming our interpretation of these magnetic signatures as reconnection events. 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Space physics</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Vogt, Marissa F</au><au>Connerney, John E P</au><au>DiBraccio, Gina A</au><au>Wilson, Rob J</au><au>Thomsen, Michelle F</au><au>Ebert, Robert W</au><au>Clark, George B</au><au>Paranicas, Christopher</au><au>Kurth, William S</au><au>Allegrini, Frédéric</au><au>Valek, Phil W</au><au>Bolton, Scott J</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Magnetotail Reconnection at Jupiter: A Survey of Juno Magnetic Field Observations</atitle><jtitle>Journal of geophysical research. Space physics</jtitle><addtitle>J Geophys Res Space Phys</addtitle><date>2020-03-01</date><risdate>2020</risdate><volume>125</volume><issue>3</issue><issn>2169-9380</issn><eissn>2169-9402</eissn><abstract>At Jupiter, tail reconnection is thought to be driven by an internal mass loading and release process called the Vasyliunas cycle. Galileo data have shown hundreds of reconnection events occurring in Jupiter's magnetotail. Here we present a survey of reconnection events observed by Juno during its first 16 orbits of Jupiter (July 2016-October 2018). The events are identified using Juno magnetic field data, which facilitates comparison to the Vogt et al. (2010, https://doi.org/10.1029/2009JA015098) survey of reconnection events from Galileo magnetometer data, but we present data from Juno's other particle and fields instruments for context. We searched for field dipolarizations or reversals and found 232 reconnection events in the Juno data, most of which featured an increase in \| \|, the magnetic field meridional component, by a factor of 3 over background values. We found that most properties of the Juno reconnection events, like their spatial distribution and duration, are comparable to Galileo, including the presence of a ~3-day quasi-periodicity in the recurrence of Juno tail reconnection events and in Juno JEDI, JADE, and Waves data. However, unlike with Galileo we were unable to clearly define a statistical x-line separating planetward and tailward Juno events. A preliminary analysis of plasma velocities during five magnetic field reconnection events showed that the events were accompanied by fast radial flows, confirming our interpretation of these magnetic signatures as reconnection events. 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subjects	Datasets Galileo project Jupiter Jupiter probes Magnetic field reconnection Magnetic fields Magnetic reconnection Magnetic signatures Magnetism Magnetometers Magnetotail reconnection Magnetotails Periodic variations Planetary magnetic fields Planetary magnetospheres Planetary magnetotails Polls & surveys Radial flow Space missions Spacecraft Spatial distribution
title	Magnetotail Reconnection at Jupiter: A Survey of Juno Magnetic Field Observations
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