MAVEN observations of a giant ionospheric flux rope near Mars resulting from interaction between the crustal and interplanetary draped magnetic fields

Hara, Takuya; Brain, David; Mitchell, David; Luhmann, J. G.; Seki, K.; Hasegawa, Hiroshi; McFadden, J. P.; Halekas, J. S.; Espley, J. R.; Harada, Yuki; Livi, R.; DiBraccio, G. A.; Connerney, J. E. P.; Mazelle, C.; Andersson, L.; Jakosky, B. M.

doi:10.1002/2016ja023347

Cited by 25 publications

(30 citation statements)

References 60 publications

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“…For example, their observed duration is about several tens of seconds with a peak field ranging between ∼10 and 25 nT. Multiple ion species including H + , O + , and O + 2 are simultaneously recorded during their encounters that is consistent with the previous MAVEN observations [Hara et al, , 2016[Hara et al, , 2017. However, it should be noted that the flux ropes with ≥ 60 ∘ tend to be observed in a series of multiple flux rope signatures across a single magnetotail current sheet as shown in Figure 3.…”

Section: Statistical Resultssupporting

confidence: 83%

“…Alternatively, we can explore the second possibility that does not necessitate magnetotail reconnection: transport of flux ropes that are originally generated in the dayside ionosphere through plasma instabilities such as helical kink, Kelvin‐Helmholtz instabilities [e.g., Elphic and Russell , ; Wolff et al , ; Ruhunusiri et al , ], and magnetic reconnection in consequence of interactions between the IMF and crustal fields [e.g., Hara et al , , ], or dayside magnetic reconnection analogous to the terrestrial flux transfer events [see, e.g., Hasegawa , , and references therein]. As illustrated in Figure b, these helical draped magnetic field lines can be subsequently transported into the nightside magnetotail forming the current sheet, allowing spacecraft to detect them as flux ropes embedded in the magnetotail current sheets.…”

Section: Introductionmentioning

confidence: 99%

“…Indeed, these helical flux rope structures are quite common in the Martian plasma environment [e.g., Cloutier et al, 1999;Vignes et al, 2004;Brain et al, 2010;Briggs et al, 2011;Hara et al, 2014aHara et al, , 2014b. Some researchers proposed that the ionospheric flux ropes are formed by magnetic reconnection between crustal magnetic field themselves Beharrell and Wild, 2012] or between the crustal field and the overlaid IMF [Hara et al, 2014b[Hara et al, , 2017; however, the physical mechanisms responsible for generating flux ropes in the Martian induced magnetotail remain poorly understood. , viewed from the current sheet based minimum variance analysis (CS-B MVA ) coordinates.…”

Section: Introductionmentioning

confidence: 99%

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On the origins of magnetic flux ropes in near‐Mars magnetotail current sheets

Hara

Harada

Mitchell

et al. 2017

Geophysical Research Letters

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We analyze Mars Atmosphere and Volatile EvolutioN (MAVEN) observations of magnetic flux ropes embedded in Martian magnetotail current sheets, in order to evaluate the role of magnetotail reconnection in their generations. We conduct a minimum variance analysis to infer the generation processes of magnetotail flux ropes from the geometrical configuration of the individual flux rope axial orientation with respect to the overall current sheet. Of 23 flux ropes detected in current sheets in the near‐Mars (∼1–3 Martian radii downstream) magnetotail, only 3 (possibly 4) can be explained by the magnetotail reconnection scenario, while the vast majority of the events (19 events) are more consistent with flux ropes that are originally generated in the dayside ionosphere and subsequently transported into the nightside magnetotail. The mixed origins of the detected flux ropes imply complex nature of generation and transport of Martian magnetotail flux ropes.

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Section: Statistical Resultssupporting

confidence: 83%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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On the origins of magnetic flux ropes in near‐Mars magnetotail current sheets

Hara

Harada

Mitchell

et al. 2017

Geophysical Research Letters

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“…Meanwhile, it remains elusive whether magnetic reconnection operates on the dayside of Mars, and if so, how it dictates the structure and dynamics of the Martian magnetosphere. As summarized by Halekas et al (2009), current sheets capable of reconnection can be generated on the dayside of Mars in multiple possible configurations: (i) between the interplanetary magnetic field (IMF) on both sides (equivalent cases are considered for comets and Venus (Niedner & Brandt, 1978;Vech et al, 2016)), (ii) between the IMF on one side and crustal field on the other (Hara et al, 2014(Hara et al, , 2016Krymskii et al, 2002), and (iii) between the crustal field on both sides (Beharrell & Wild, 2012;Brain et al, 2010). Though effects and products of dayside reconnection at Mars have been discussed in the aforementioned literature, there have been few reports on direct measurements of in situ reconnection signatures (such as accelerated plasma flows and Hall magnetic fields within current sheets; e.g., Paschmann et al, 2013).…”

Section: Introductionmentioning

confidence: 99%

Magnetic Reconnection on Dayside Crustal Magnetic Fields at Mars: MAVEN Observations

Harada

Halekas

DiBraccio

et al. 2018

Geophysical Research Letters

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The identification of magnetic reconnection on the dayside of Mars has been elusive owing to the lack of comprehensive plasma and field measurements. Here we present direct measurements of dayside in situ reconnection signatures by the comprehensive particles and fields package on board the Mars Atmosphere and Volatile EvolutioN (MAVEN) spacecraft over strong crustal magnetic fields in the southern hemisphere of Mars. During a crossing of a bifurcated current sheet consisting of northward and southward magnetic fields, MAVEN recorded (i) ionospheric photoelectrons trapped on closed magnetic field lines, (ii) Hall magnetic fields and a nonzero normal field with polarity consistent with a crossing northward of the X line, and (iii) northward Alfvénic ion jets. Dayside magnetic reconnection on crustal magnetic fields could control the global configuration and topology of the Martian magnetosphere and alter the ion escape pattern from the dayside ionosphere.

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“…Injection and trapping of electrons on closed magnetic field lines have been observed near the Martian crustal magnetic fields [ Brain et al , ; Ulusşen and Linscott , ; Harada et al , ; Xu et al , ]. Magnetic flux ropes can be formed by reconnection between draped interplanetary fields in the induced tail current sheets, between crustal and draped fields, or between neighboring crustal fields [ Brain et al , ; Briggs et al , ; Beharrell and Wild , ; Eastwood et al , ; Hara et al , , ; Soobiah et al , ; DiBraccio et al , ]. In order to evaluate the role of reconnection in their generation processes, it is necessary to characterize the basic properties of magnetic reconnection at Mars based on in situ observations of particle and field signatures around X lines.…”

Section: Introductionmentioning

confidence: 99%

Survey of magnetic reconnection signatures in the Martian magnetotail with MAVEN

et al. 2017

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We conduct an extended survey of reconnection signatures observed in the Martian magnetotail by the Mars Atmosphere and Volatile EvolutioN (MAVEN) mission. Although it is well established that magnetic reconnection plays a fundamental role in the dynamics of intrinsic magnetospheres, the role of reconnection in the dynamics of induced magnetospheres remains poorly understood. Based on comprehensive plasma and field measurements by MAVEN in the Martian magnetotail, we first identified 776 current sheet crossings and then selected 34 crossings with Hall magnetic field signatures, which are indicative of the ion diffusion region of tail reconnection. For the majority of the identified Hall field events, we observe ion flow enhancements in the directions consistent with the reconnection outflow directions expected from the Hall magnetic field polarity. The reconnection signatures are preferentially observed in the −E hemisphere of the near‐Mars magnetotail at ∼1–2 Mars radii downstream from Mars. We have found no strong correlation of the likelihood of observing reconnection signatures with local crustal field strengths or with upstream drivers. The duty cycle of tail reconnection is estimated to be ∼1–10% or even higher. The MAVEN observations suggest that magnetic reconnection can play an important role in the dynamics of the Martian magnetotail.

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MAVEN observations of a giant ionospheric flux rope near Mars resulting from interaction between the crustal and interplanetary draped magnetic fields

Cited by 25 publications

References 60 publications

On the origins of magnetic flux ropes in near‐Mars magnetotail current sheets

On the origins of magnetic flux ropes in near‐Mars magnetotail current sheets

Magnetic Reconnection on Dayside Crustal Magnetic Fields at Mars: MAVEN Observations

Survey of magnetic reconnection signatures in the Martian magnetotail with MAVEN

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