T. Yokoyama scite author profile

Masuda et al. found a hard X-ray source well above a soft X-ray loop in impul sive compact-loop flares near the limb. This indicates that main energy release is going on above the soft X-ray loop, and suggests magnetic reconnection occurring above the loop, similar to the classical model for two ribbon flares. If the reconnection hypothesis is correct, a hot plasma (or plasmoid) ejection is expected to be associated with these flares. Using the images taken by the soft X-ray telescope aboard Yohkoh, we searched for such plasma ejections in eight impulsive compact-loop flares near the limb, which are selected in an unbiased manner and include also the Masuda flare, 1992 January 13 flare. We found that all these flares were associated with X-ra y plasma ejections high above the sof t X-ra y loop and the velocity of ejections is within the range of 50-400 km s Ϫ1. This result gives further support for magnetic reconnection hypothesis of these impulsive compact-loop flares.

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H alpha Surges and X-Ray Jets in AR 7260

Canfield¹,

Reardon²,

Leka³

et al. 1996

ApJ

287

272

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Magnetic field variations in the Jovian magnetotail induced by solar wind dynamic pressure enhancements

et al. 2005

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[1] In order to understand the response of the Jovian magnetosphere to solar wind dynamic pressure enhancements, we investigate magnetic field variations observed by the Galileo spacecraft. The lack of solar wind monitoring just upstream of the Jovian magnetosphere is overcome by simulating a one-dimensional magnetohydrodynamic (MHD) propagation of the solar wind from the Earth. We identify the events with an increase of the solar wind dynamic pressure >0.25 nPa at the Jovian orbit. Characteristic magnetic field variations are found in the Jovian magnetosphere for all of the nine events. The rectangular waveform due to the Jovian rotation disappears for eight of the nine events. Magnetic field disturbances in the frequency range from 0.3 to 10 mHz are enhanced simultaneously. The maximum amplitude of the disturbances is in proportional to the maximum amplitude of the solar wind dynamic pressure. We suggest that the current sheet is greatly deformed and reconnection bursts are induced under the compressed magnetosphere.

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Clear Evidence of Reconnection Inflow of a Solar Flare

Yokoyama

Akita²,

Morimoto³

et al. 2001

319

218

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T. Yokoyama

Magnetic reconnection as the origin of X-ray jets and Hα surges on the Sun

Hot-Plasma Ejections Associated with Compact-Loop Solar Flares

H alpha Surges and X-Ray Jets in AR 7260

Magnetic field variations in the Jovian magnetotail induced by solar wind dynamic pressure enhancements

Clear Evidence of Reconnection Inflow of a Solar Flare

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