2013
DOI: 10.1002/grl.50616
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Polar cap patch segmentation of the tongue of ionization in the morning convection cell

Abstract: [1] Two types of poleward moving plasma concentration enhancements (PMPCEs) were observed during a sequence of pulsed reconnection events, both in the morning convection cell: Type L (low density) was associated with a cusp flow channel and seems likely to have been produced by ionization associated with particle precipitation, while Type H (high density) appeared to originate from the segmentation of the tongue of ionization by the processes which produced the Type L events. As a result, the Type L and Type H… Show more

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Cited by 61 publications
(90 citation statements)
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“…As an example, plasma originating at midlatitudes can be transported to high latitudes and into the polar cap in a form of a tongue of ionization which greatly enhances the plasma density in the polar cap, cusp and auroral zone (e.g., Foster et al, 2005). Tongues of ionization can also be segmented into 100-1000 km sized islands of enhanced electron density, called polar cap patches (e.g., Lockwood and Carlson, 1992;Zhang et al, 2013). The patches are transported over the polar cap following the convection pattern.…”
Section: Introductionmentioning
confidence: 99%
“…As an example, plasma originating at midlatitudes can be transported to high latitudes and into the polar cap in a form of a tongue of ionization which greatly enhances the plasma density in the polar cap, cusp and auroral zone (e.g., Foster et al, 2005). Tongues of ionization can also be segmented into 100-1000 km sized islands of enhanced electron density, called polar cap patches (e.g., Lockwood and Carlson, 1992;Zhang et al, 2013). The patches are transported over the polar cap following the convection pattern.…”
Section: Introductionmentioning
confidence: 99%
“…Recently, Goodwin et al (2015) used SWARM data to document the intake of solar-EUV plasma through fast flow channels. Those fast flows are also associated with poleward moving auroral forms (PMAFs), which are considered to be an ionospheric signature of localized dayside magnetic reconnection and flux transfer events (FTEs) (Moen et al 1995;Provan et al 1998McWilliams et al 2000;Milan et al 2000;Sandholt and Farrugia 2003;Lockwood et al 2005;Carlson et al 2006;Zhang et al 2011Zhang et al , 2013b. PMAFs initiate near the poleward boundary of the dayside auroral oval and then propagate poleward before fading away (Lorentzen et al 2010).…”
Section: Introductionmentioning
confidence: 99%
“…(Zhang et al, 2017), but, if they appear only in 630.0 nm keogram ( Figure 1B), so called polar cap patches (e.g., Sato et al, 1998;Zhang et al, 2011Zhang et al, , 2013aZhang et al, ,b, 2016Hosokawa et al, 2012). Whenever, these structures meet the GNSS signals, they give rise to moderate amplitude and phase scintillation (Hosokawa et al, 2014), especially for polar cap hot patches (Zhang et al, 2017).…”
Section: Fixed Boundary Auroral Emissions (Fbae)mentioning
confidence: 98%
“…PMAFs are the poleward moving auroral forms and they cause severe degradation on the GNSS signals by causing scintillation and the loss of lock between satellite signal and the GNSS ground based receiver . Crowley et al (2000) and Zhang et al (2013aZhang et al ( , 2015 mentioned that nighttime aurora are occasionally due to the dayside high plasma density, which enters the nightside auroral oval and generate aurora thereafter, these high density plasma returns back to the dayside region. Inside the nightime auroral oval if the polarcap patches enters and produce aurora, the strongest scintillation is mostly found at the poleward edge of the nighttime auroral oval .…”
Section: Introductionmentioning
confidence: 99%
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