Sequential Chromospheric Brightenings beneath a Transequatorial Halo Coronal Mass Ejection

Analyses of multiwavelength data sets for a solar eruption at 621:30 UT on 2002 December 19 show evidence for the disappearance of a large-scale, transequatorial coronal loop (TL). In addition, coronal manifestations of the eruption (based on SOHO EIT and LASCO images) include large-scale coronal di...

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Veröffentlicht in:	The Astrophysical journal 2005-09, Vol.630 (2), p.1160-1167
Hauptverfasser:	Balasubramaniam, K. S, Pevtsov, A. A, Neidig, D. F, Cliver, E. W, Thompson, B. J, Young, C. A, Martin, S. F, Kiplinger, A
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container_title	The Astrophysical journal
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creator	Balasubramaniam, K. S Pevtsov, A. A Neidig, D. F Cliver, E. W Thompson, B. J Young, C. A Martin, S. F Kiplinger, A
description	Analyses of multiwavelength data sets for a solar eruption at 621:30 UT on 2002 December 19 show evidence for the disappearance of a large-scale, transequatorial coronal loop (TL). In addition, coronal manifestations of the eruption (based on SOHO EIT and LASCO images) include large-scale coronal dimming, flares in each associated active region in the northern and southern hemispheres, and a halo CME. We present detailed observations of the chromospheric aspects of this event based on Ha images obtained with the ISOON telescope. The ISOON images reveal distant flare precursor brightenings, sympathetic flares, and, of most interest herein, four nearly cospatial propagating chromospheric brightenings. The speeds of the propagating disturbances causing these brightenings are 600-800 km s super(-1). The inferred propagating disturbances have some of the characteristics of Ha and EIT flare waves (e.g., speed, apparent emanation from the flare site, subsequent filament activation). However, they differ from typical Ha chromospheric flare waves (also known as Moreton waves) because of their absence in off-band Ha images, small angular arc of propagation (
doi_str_mv	10.1086/432030
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The ISOON images reveal distant flare precursor brightenings, sympathetic flares, and, of most interest herein, four nearly cospatial propagating chromospheric brightenings. The speeds of the propagating disturbances causing these brightenings are 600-800 km s super(-1). The inferred propagating disturbances have some of the characteristics of Ha and EIT flare waves (e.g., speed, apparent emanation from the flare site, subsequent filament activation). However, they differ from typical Ha chromospheric flare waves (also known as Moreton waves) because of their absence in off-band Ha images, small angular arc of propagation (<30), and their multiplicity. Three of the four propagating disturbances consist of a series of sequential chromospheric brightenings of network points that suddenly brighten in the area beneath the TL that disappeared earlier. SOHO MDI magnetograms show that the successively brightened points that define the inferred propagating disturbances were exclusively of one polarity, corresponding to the dominant polarity of the affected region. We speculate that the sequential chromospheric brightenings represent footpoints of field lines that extend into the corona, where they are energized in sequence by magnetic reconnection as coronal fields tear away from the chromosphere during the eruption of the transequatorial CME. 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We present detailed observations of the chromospheric aspects of this event based on Ha images obtained with the ISOON telescope. The ISOON images reveal distant flare precursor brightenings, sympathetic flares, and, of most interest herein, four nearly cospatial propagating chromospheric brightenings. The speeds of the propagating disturbances causing these brightenings are 600-800 km s super(-1). The inferred propagating disturbances have some of the characteristics of Ha and EIT flare waves (e.g., speed, apparent emanation from the flare site, subsequent filament activation). However, they differ from typical Ha chromospheric flare waves (also known as Moreton waves) because of their absence in off-band Ha images, small angular arc of propagation (<30), and their multiplicity. Three of the four propagating disturbances consist of a series of sequential chromospheric brightenings of network points that suddenly brighten in the area beneath the TL that disappeared earlier. SOHO MDI magnetograms show that the successively brightened points that define the inferred propagating disturbances were exclusively of one polarity, corresponding to the dominant polarity of the affected region. We speculate that the sequential chromospheric brightenings represent footpoints of field lines that extend into the corona, where they are energized in sequence by magnetic reconnection as coronal fields tear away from the chromosphere during the eruption of the transequatorial CME. 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A</creatorcontrib><creatorcontrib>Neidig, D. F</creatorcontrib><creatorcontrib>Cliver, E. W</creatorcontrib><creatorcontrib>Thompson, B. J</creatorcontrib><creatorcontrib>Young, C. A</creatorcontrib><creatorcontrib>Martin, S. F</creatorcontrib><creatorcontrib>Kiplinger, A</creatorcontrib><collection>Pascal-Francis</collection><collection>CrossRef</collection><collection>Meteorological & Geoastrophysical Abstracts</collection><collection>Meteorological & Geoastrophysical Abstracts - Academic</collection><collection>Technology Research Database</collection><collection>Aerospace Database</collection><collection>Advanced Technologies Database with Aerospace</collection><jtitle>The Astrophysical journal</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext_linktorsrc</fulltext></delivery><addata><au>Balasubramaniam, K. S</au><au>Pevtsov, A. A</au><au>Neidig, D. F</au><au>Cliver, E. W</au><au>Thompson, B. J</au><au>Young, C. A</au><au>Martin, S. 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We present detailed observations of the chromospheric aspects of this event based on Ha images obtained with the ISOON telescope. The ISOON images reveal distant flare precursor brightenings, sympathetic flares, and, of most interest herein, four nearly cospatial propagating chromospheric brightenings. The speeds of the propagating disturbances causing these brightenings are 600-800 km s super(-1). The inferred propagating disturbances have some of the characteristics of Ha and EIT flare waves (e.g., speed, apparent emanation from the flare site, subsequent filament activation). However, they differ from typical Ha chromospheric flare waves (also known as Moreton waves) because of their absence in off-band Ha images, small angular arc of propagation (<30), and their multiplicity. Three of the four propagating disturbances consist of a series of sequential chromospheric brightenings of network points that suddenly brighten in the area beneath the TL that disappeared earlier. SOHO MDI magnetograms show that the successively brightened points that define the inferred propagating disturbances were exclusively of one polarity, corresponding to the dominant polarity of the affected region. We speculate that the sequential chromospheric brightenings represent footpoints of field lines that extend into the corona, where they are energized in sequence by magnetic reconnection as coronal fields tear away from the chromosphere during the eruption of the transequatorial CME. We report briefly on three other events with similar.</abstract><cop>Chicago, IL</cop><pub>IOP Publishing</pub><doi>10.1086/432030</doi><tpages>8</tpages><oa>free_for_read</oa></addata></record>
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