В. Г. Еселевич scite author profile

On 17 January 2010, STEREO-B observed in extreme ultraviolet (EUV) and white light a large-scale dome-shaped expanding coronal transient with perfectly connected off-limb and on-disk signatures. Veronig et al. (2010, ApJL 716, 57) concluded that the dome was formed by a weak shock wave. We have revealed two EUV components, one of which corresponded to this transient. All of its properties found from EUV, white light, and a metric type II burst match expectations for a freely expanding coronal shock wave including correspondence to the fast-mode speed distribution, while the transient sweeping over the solar surface had a speed typical of EUV waves. The shock wave was presumably excited by an abrupt filament eruption. Both a weak shock approximation and a power-law fit match kinematics of the transient near the Sun. Moreover, the power-law fit matches expansion of the CME leading edge up to 24 solar radii. The second, quasi-stationary EUV component near the dimming was presumably associated with a stretched CME structure; no indications of opening magnetic fields have been detected far from the eruption region.

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Еселевич

Файнштейн

Rudenko

1999

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Shock-wave structure in collisionless plasmas from results of laboratory experiments

Еселевич

1982

Space Sci Rev

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Relations estimated at shock discontinuities excited by coronal mass ejections

Еселевич

2011

Astron. Rep.

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Disturbed Zone and Piston Shock Ahead of Coronal Mass Ejection

Еселевич

2012

ApJ

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Solar wind diamagnetic structures as a source of substorm-like disturbances

Parkhomov

Бородкова

Еселевич

et al. 2018

Journal of Atmospheric and Solar-Terrestrial Physics

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Coronal Shock Waves, EUV Waves, and Their Relation to CMEs. III. Shock-Associated CME/EUV Wave in an Event with a Two-Component EUV Transient

Grechnev

Afanasyev

Uralov

et al. 2011

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Streamer Belt and Chains as the Main Sources of Quasi-Stationary Slow Solar Wind

Еселевич

Fujiki

2007

Sol Phys

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Synoptic maps of white-light coronal brightness from SOHO/LASCO C2 and distributions of solar wind velocity obtained from interplanetary scintillation are studied. Regions with velocity V ≈ 300 -450 km s −1 and increased density N > 10 cm −3 , typical of the "slow" solar wind originating from the belt and chains of streamers, are shown to exist at Earth's orbit, between the fast solar wind flows (with a maximum velocity V max ≈ 450 -800 km s −1 ). The belt and chains of streamers are the main sources of the "slow" solar wind. As the sources of "slow" solar wind, the contribution from the chains of streamers may be comparable to that from the streamer belt.

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