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Physical conditions in the chromosphere of a two-ribbon solar flare accompanied by a surge: 1
We studied changes in thermodynamic parameters of the chromosphere at the initial stage of the two-ribbon solar flare accompanied by a surge that occurred on September 4, 1990. The inhomogeneous semiempirical models of the flare chromosphere and surge are constructed for four observation moments. Th...
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| Published in: | Kinematics and physics of celestial bodies 2013-07, Vol.29 (4), p.167-175 |
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| container_title | Kinematics and physics of celestial bodies |
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| creator | Baranovskyi, E. A. Kondrashova, N. N. Pasechnik, M. N. Tarashchuk, V. P. |
| description | We studied changes in thermodynamic parameters of the chromosphere at the initial stage of the two-ribbon solar flare accompanied by a surge that occurred on September 4, 1990. The inhomogeneous semiempirical models of the flare chromosphere and surge are constructed for four observation moments. The spectra were obtained with the ATsU-26 horizontal solar telescope of the Main Astronomical Observatory of the National Academy of Sciences of Ukraine (Terskol Peak). Photometric transections of the spectra passed through two bright kernels of one of the flare ribbons and through the surge. The comparison of the observed profiles of the line H
α
in the solar active and quiet-Sun regions reveals the substantial emission in the line wings (up to 1–1.2 nm) with a residual intensity of 0.6–0.77 at the center of the line profiles. Calculations within the two-component models of the chromosphere have shown that this may be the evidence of the existence of the details (unresolved by the telescope and occupying 5–12% of the total area) with a deep heating of the chromosphere layers. A strong asymmetry of the line profiles and the shift with respect to the line profile for the quiet-Sun region are explained by peculiarities of the line-of-sight velocity distribution over the height. It is found that the motion is directed to the observer in the upper chromosphere (10–30 km/s) and from the observer in the lower chromosphere (5–20 km/s) for the larger part of the active region under study. According to the models calculated for the surge, the line-of-sight velocities reach a value of 70 km/s. |
| doi_str_mv | 10.3103/S0884591313040028 |
| format | article |
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α
in the solar active and quiet-Sun regions reveals the substantial emission in the line wings (up to 1–1.2 nm) with a residual intensity of 0.6–0.77 at the center of the line profiles. Calculations within the two-component models of the chromosphere have shown that this may be the evidence of the existence of the details (unresolved by the telescope and occupying 5–12% of the total area) with a deep heating of the chromosphere layers. A strong asymmetry of the line profiles and the shift with respect to the line profile for the quiet-Sun region are explained by peculiarities of the line-of-sight velocity distribution over the height. It is found that the motion is directed to the observer in the upper chromosphere (10–30 km/s) and from the observer in the lower chromosphere (5–20 km/s) for the larger part of the active region under study. According to the models calculated for the surge, the line-of-sight velocities reach a value of 70 km/s.</description><identifier>ISSN: 0884-5913</identifier><identifier>EISSN: 1934-8401</identifier><identifier>DOI: 10.3103/S0884591313040028</identifier><language>eng</language><publisher>Boston: Springer US</publisher><subject>Astronomy ; Observations and Techniques ; Physics ; Physics and Astronomy ; Solar flares ; Solar Physics ; Sun ; Thermodynamics ; Velocity distribution</subject><ispartof>Kinematics and physics of celestial bodies, 2013-07, Vol.29 (4), p.167-175</ispartof><rights>Allerton Press, Inc. 2013</rights><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-c349t-c51604847984eac6ad76b8263d0a9df950ea4dd857f619e3e1c28e259a8c53323</citedby><cites>FETCH-LOGICAL-c349t-c51604847984eac6ad76b8263d0a9df950ea4dd857f619e3e1c28e259a8c53323</cites></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,780,784,27924,27925</link.rule.ids></links><search><creatorcontrib>Baranovskyi, E. A.</creatorcontrib><creatorcontrib>Kondrashova, N. N.</creatorcontrib><creatorcontrib>Pasechnik, M. N.</creatorcontrib><creatorcontrib>Tarashchuk, V. P.</creatorcontrib><title>Physical conditions in the chromosphere of a two-ribbon solar flare accompanied by a surge: 1</title><title>Kinematics and physics of celestial bodies</title><addtitle>Kinemat. Phys. Celest. Bodies</addtitle><description>We studied changes in thermodynamic parameters of the chromosphere at the initial stage of the two-ribbon solar flare accompanied by a surge that occurred on September 4, 1990. The inhomogeneous semiempirical models of the flare chromosphere and surge are constructed for four observation moments. The spectra were obtained with the ATsU-26 horizontal solar telescope of the Main Astronomical Observatory of the National Academy of Sciences of Ukraine (Terskol Peak). Photometric transections of the spectra passed through two bright kernels of one of the flare ribbons and through the surge. The comparison of the observed profiles of the line H
α
in the solar active and quiet-Sun regions reveals the substantial emission in the line wings (up to 1–1.2 nm) with a residual intensity of 0.6–0.77 at the center of the line profiles. Calculations within the two-component models of the chromosphere have shown that this may be the evidence of the existence of the details (unresolved by the telescope and occupying 5–12% of the total area) with a deep heating of the chromosphere layers. A strong asymmetry of the line profiles and the shift with respect to the line profile for the quiet-Sun region are explained by peculiarities of the line-of-sight velocity distribution over the height. It is found that the motion is directed to the observer in the upper chromosphere (10–30 km/s) and from the observer in the lower chromosphere (5–20 km/s) for the larger part of the active region under study. According to the models calculated for the surge, the line-of-sight velocities reach a value of 70 km/s.</description><subject>Astronomy</subject><subject>Observations and Techniques</subject><subject>Physics</subject><subject>Physics and Astronomy</subject><subject>Solar flares</subject><subject>Solar Physics</subject><subject>Sun</subject><subject>Thermodynamics</subject><subject>Velocity distribution</subject><issn>0884-5913</issn><issn>1934-8401</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2013</creationdate><recordtype>article</recordtype><recordid>eNp1kEtLxDAUhYMoOI7-AHcBN26qebaJOxFfMKCgLqWk6e00Q9uMSYvMvzfDuBDFzb2L851zLwehU0ouOCX88oUoJaSmnHIiCGFqD82o5iJTgtB9NNvK2VY_REcxrgiROdNiht6f20101nTY-qF2o_NDxG7AYwvYtsH3Pq5bCIB9gw0eP30WXFX5AUffmYCbNAAba32_NoODGlebxMUpLOEK02N00Jguwsn3nqO3u9vXm4ds8XT_eHO9yCwXesyspDkRShRaCTA2N3WRV4rlvCZG142WBIyoayWLJqcaOFDLFDCpjbKSc8bn6HyXuw7-Y4I4lr2LFrrODOCnWFIhOC8KooqEnv1CV34KQ_ouUUxxkst0eI7ojrLBxxigKdfB9SZsSkrKbeHln8KTh-08MbHDEsKP5H9NX_eLgJg</recordid><startdate>20130701</startdate><enddate>20130701</enddate><creator>Baranovskyi, E. 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A.</au><au>Kondrashova, N. N.</au><au>Pasechnik, M. N.</au><au>Tarashchuk, V. P.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Physical conditions in the chromosphere of a two-ribbon solar flare accompanied by a surge: 1</atitle><jtitle>Kinematics and physics of celestial bodies</jtitle><stitle>Kinemat. Phys. Celest. Bodies</stitle><date>2013-07-01</date><risdate>2013</risdate><volume>29</volume><issue>4</issue><spage>167</spage><epage>175</epage><pages>167-175</pages><issn>0884-5913</issn><eissn>1934-8401</eissn><abstract>We studied changes in thermodynamic parameters of the chromosphere at the initial stage of the two-ribbon solar flare accompanied by a surge that occurred on September 4, 1990. The inhomogeneous semiempirical models of the flare chromosphere and surge are constructed for four observation moments. The spectra were obtained with the ATsU-26 horizontal solar telescope of the Main Astronomical Observatory of the National Academy of Sciences of Ukraine (Terskol Peak). Photometric transections of the spectra passed through two bright kernels of one of the flare ribbons and through the surge. The comparison of the observed profiles of the line H
α
in the solar active and quiet-Sun regions reveals the substantial emission in the line wings (up to 1–1.2 nm) with a residual intensity of 0.6–0.77 at the center of the line profiles. Calculations within the two-component models of the chromosphere have shown that this may be the evidence of the existence of the details (unresolved by the telescope and occupying 5–12% of the total area) with a deep heating of the chromosphere layers. A strong asymmetry of the line profiles and the shift with respect to the line profile for the quiet-Sun region are explained by peculiarities of the line-of-sight velocity distribution over the height. It is found that the motion is directed to the observer in the upper chromosphere (10–30 km/s) and from the observer in the lower chromosphere (5–20 km/s) for the larger part of the active region under study. According to the models calculated for the surge, the line-of-sight velocities reach a value of 70 km/s.</abstract><cop>Boston</cop><pub>Springer US</pub><doi>10.3103/S0884591313040028</doi><tpages>9</tpages></addata></record> |
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| subjects | Astronomy Observations and Techniques Physics Physics and Astronomy Solar flares Solar Physics Sun Thermodynamics Velocity distribution |
| title | Physical conditions in the chromosphere of a two-ribbon solar flare accompanied by a surge: 1 |
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