Dual source populations of substorm-associated ring current ions

Yamauchi, M.; Ebihara, Yusuke; Dandouras, I.; Rème, H.

doi:10.5194/angeo-27-1431-2009

Cited by 9 publications

(24 citation statements)

References 18 publications

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“…The wedge-like dispersed ions are most often observed in the dawn sector (60 % of traversals), which is consistent with the past results (e.g., . The correlation between the wedge-like dispersed ions and the AL activity is consistent with the previous results Yamauchi et al, 2009b). However, the high occurrence rate of the enhancing cases at all LTs needs quantitative examination (e.g., by numerical simulation in the future).…”

Section: Discussionsupporting

confidence: 78%

“…During substorms, this demarcation energy increases due to the enhanced electric field (Yamauchi et al, 2009b). In this paper, however, we do not include the change in the ion energy in defining the inbound-outbound differences because we look for the sudden appearance/disappearance of an ion population rather than change in the drift velocity.…”

Section: Introductionmentioning

confidence: 99%

“…b. Wedge-like energy-latitude dispersed structured ions at sub-keV range (Yamauchi et al, 1996;Ebihara et al, 2001): These ions are found even at low altitude (Sauvaud et al, 1981;Newell and Meng, 1986). The energy of the source population is much lower than that of the first population, and two possible origins have been proposed for this population: a nightside plasma sheet that contains cold plasma of ionospheric origin (Yamauchi et al, 2009b;Engwall et al, 2009) and a direct supply from the ionosphere (Giang et al, 2009). It is not clear whether these ions are the same as sub-keV ions flowing in nearly the field-aligned directions as observed by many equatorial satellites (e.g., Fennel et al, 1981).…”

Section: Introductionmentioning

confidence: 99%

“…Such a work requires a good classification of the latitudinal ion profiles into several "basic energy-latitude patterns" of ion populations coming from specific source regions via specific transport mechanisms and elapsed times, from 10 min to 10 h (Horwitz and Chappell, 1979;Ejiri et al, 1980;Olsen et al, 1987;Ebihara et al, 2001;Yamauchi et al, 2009b). However, this task is not simple because the observed ion population of < several keV in the inner magnetosphere is a convolution of various ion populations, which are sensitive to changes in the drift direction, location, and magnetospheric activity.…”

Section: Introductionmentioning

confidence: 99%

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Cluster observation of few-hour-scale evolution of structured plasma in the inner magnetosphere

et al. 2013

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Using Cluster Ion Spectrometry (CIS) data from the spacecraft-4 perigee traversals during the 2001–2006 period (nearly 500 traversals after removing those that are highly contaminated by radiation belt particles), we statistically examined the local time distribution of structured trapped ions at sub- to few-keV range as well as inbound–outbound differences of these ion signatures in intensities and energy–latitude dispersion directions. Since the Cluster orbit during this period was almost constant and approximately north–south symmetric at nearly constant local time near the perigee, inbound–outbound differences are attributed to temporal developments in a 1–2 h timescale. Three types of structured ions at sub- to few keV range that are commonly found in the inner magnetosphere are examined:

– Energy–latitude dispersed structured ions at less than a few keV,
– Short-lived dispersionless ion stripes at wide energy range extending 0.1–10 keV,
– Short-lived low-energy ion bursts at less than a few hundred eV.

The statistics revealed that the wedge-like dispersed ions are most often observed in the dawn sector (60% of traversals), and a large portion of them show significant enhancement during the traversals at all local times. The short-lived ion stripes are predominantly found near midnight, where most stripes are significantly enhanced during the traversals and are associated with substorm activities with geomagnetic AL < −300 nT. The low-energy bursts are observed at all local times and under all geomagnetic conditions, with moderate peak of the occurrence rate in the afternoon sector. A large portion of them again show significant enhancement or decay during the traversals

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Section: Discussionsupporting

confidence: 78%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Cluster observation of few-hour-scale evolution of structured plasma in the inner magnetosphere

et al. 2013

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“…The third category is found at all local times and can be interpreted as local phenomena with a short timescale of no more than 1 h. On the other hand, the first category (wedge-like dispersed ions) is often observed in the morning-to-noon sectors, and represents the ion population that drifts more than a few hours after they are formed during substorms in the midnight-tomorning sectors (Ebihara et al, 2001;Yamauchi et al, 2009).…”

Section: Introductionmentioning

confidence: 99%

Ion drift simulation of sudden appearance of sub-keV structured ions in the inner magnetosphere

et al. 2014

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Abstract. Energy-latitude dispersed structured sub-keV ions in the inner magnetosphere often show significant development or intensification (by more than factor of 3) within 1-2 h near noon or afternoon where the azimuthal ion drift velocity at the sub-keV range is expected to be near zero.To examine whether such sudden appearances in the dayside can be explained by the drift motion of ions that are formed during substorm-related injections, we numerically simulated two such examples, one at noon and the other in the afternoon, based on the ion drift model. For both cases, the ion drift model with finite duration of proton source in the nightside can explain the observed large inbound-outbound differences in the sub-keV proton population without any new sources. Ion drift motion can thus cause rapid changes of complicated ion populations, at remote places from the source a long time after the substorm activities.

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Cluster observations of hot He⁺ events in the inner magnetosphere

et al. 2014

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In the inner magnetosphere inside 65°invariant latitude, Cluster Ion Spectrometry detected hot He + events of about a few tens to several hundred eV without the same types of hot H + signature at the same energy. During the 2001-2006 period when the Cluster orbit was almost constant and approximately north-south symmetric at constant local time near the perigee, we found nearly 20 examples in Cluster spacecraft 4. These hot He + events are morphologically classified into two burst types and two dispersed types: (1) Short intensification of He + (1a) without corresponding H + or O + signatures, or (1b) with H + signature at different pitch angles. (2) Energy-latitude dispersed He + stripes that continues for tens of minutes at hundreds to a few thousand eV range (2a) at different drift shell from energy-latitude dispersed H + stripes, or (2b) with very weak H + signature if the energy is constant. While type-1a is observed during or right after substorm activities, type-2b is found after long quiet periods, i.e., after long drift. The relationship with the geomagnetic activity indicates that the plasmasphere can be energized in a mass-dependent way in the evening sector during substorms to form the bursty types (type-1), while the selective He + energization can also take place during quiet periods near the noon. On the other hand, the source of the two dispersed types (type-2) must be remote from the observation point, and the location and the geomagnetic conditions at the time of the He + filtering is an open question.

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Dual source populations of substorm-associated ring current ions

Cited by 9 publications

References 18 publications

Cluster observation of few-hour-scale evolution of structured plasma in the inner magnetosphere

Cluster observation of few-hour-scale evolution of structured plasma in the inner magnetosphere

Ion drift simulation of sudden appearance of sub-keV structured ions in the inner magnetosphere

Cluster observations of hot He⁺ events in the inner magnetosphere

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Dual source populations of substorm-associated ring current ions

Cited by 9 publications

References 18 publications

Cluster observation of few-hour-scale evolution of structured plasma in the inner magnetosphere

Cluster observation of few-hour-scale evolution of structured plasma in the inner magnetosphere

Ion drift simulation of sudden appearance of sub-keV structured ions in the inner magnetosphere

Cluster observations of hot He+ events in the inner magnetosphere

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Cluster observations of hot He⁺ events in the inner magnetosphere