Moreton and EUV Waves Associated with an X1.0 Flare and CME Ejection

Francile, C.; López, F.M.; Cremades, H.; Mandrini, C.H.; Luoni, M.L.; Long, D.M.

doi:10.1007/s11207-016-0978-y

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Francile, C.; López, F.M.; Cremades, H.; Mandrini, C.H.; Luoni, M.L.; Long, D.M. "Moreton and EUV Waves Associated with an X1.0 Flare and CME Ejection" (2016) Solar Physics. 291(11):3217-3249

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Abstract:

A Moreton wave was detected in active region (AR) 12017 on 29 March 2014 with very high cadence with the H-Alpha Solar Telescope for Argentina (HASTA) in association with an X1.0 flare (SOL2014-03-29T17:48). Several other phenomena took place in connection with this event, such as low-coronal waves and a coronal mass ejection (CME). We analyze the association between the Moreton wave and the EUV signatures observed with the Atmospheric Imaging Assembly onboard the Solar Dynamics Observatory. These include their low-coronal surface-imprint, and the signatures of the full wave and shock dome propagating outward in the corona. We also study their relation to the white-light CME. We perform a kinematic analysis by tracking the wavefronts in several directions. This analysis reveals a high-directional dependence of accelerations and speeds determined from data at various wavelengths. We speculate that a region of open magnetic field lines northward of our defined radiant point sets favorable conditions for the propagation of a coronal magnetohydrodynamic shock in this direction. The hypothesis that the Moreton wavefront is produced by a coronal shock-wave that pushes the chromosphere downward is supported by the high compression ratio in that region. Furthermore, we propose a 3D geometrical model to explain the observed wavefronts as the chromospheric and low-coronal traces of an expanding and outward-traveling bubble intersecting the Sun. The results of the model are in agreement with the coronal shock-wave being generated by a 3D piston that expands at the speed of the associated rising filament. The piston is attributed to the fast ejection of the filament–CME ensemble, which is also consistent with the good match between the speed profiles of the low-coronal and white-light shock waves. © 2016, Springer Science+Business Media Dordrecht.

Registro:

Documento:	Artículo
Título:	Moreton and EUV Waves Associated with an X1.0 Flare and CME Ejection
Autor:	Francile, C.; López, F.M.; Cremades, H.; Mandrini, C.H.; Luoni, M.L.; Long, D.M.
Filiación:	Observatorio Astronómico Félix Aguilar (OAFA), UNSJ, San Juan, Argentina Instituto de Ciencias Astronómicas, de la Tierra y del Espacio (ICATE), CONICET, San Juan, Argentina Facultad Regional Mendoza, Universidad Tecnológica Nacional, Mendoza, Argentina Consejo Nacional de Investigaciones Científicas y Técnicas (CONICET), Mendoza, Argentina Instituto de Astronomía y Física del Espacio (IAFE), CONICET-UBA, Buenos Aires, Argentina Facultad de Ciencias Exactas y Naturales (FCEN), UBA, Buenos Aires, Argentina UCL-Mullard Space Science Laboratory, Holmbury St Mary, Dorking, Surrey RH5 6NT, United Kingdom
Palabras clave:	Coronal mass ejections, low coronal signatures; Flares, waves; Waves, propagation; Waves, shocks
Año:	2016
Volumen:	291
Número:	11
Página de inicio:	3217
Página de fin:	3249
DOI:	http://dx.doi.org/10.1007/s11207-016-0978-y
Título revista:	Solar Physics
Título revista abreviado:	Sol. Phys.
ISSN:	00380938
Registro:	https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00380938_v291_n11_p3217_Francile

Referencias:

Asai, A., Ishii, T.T., Isobe, H., Kitai, R., Ichimoto, K., UeNo, S.E., (2012) Astrophys. J. Lett., 745. , ADS
Athay, R.G., Moreton, G.E., (1961) Astrophys. J., 133, p. 935. , ADS
Attrill, G., Harra, L., van Driel-Gesztelyi, L., Démoulin, P., (2007) Astrophys. J. Lett., 656. , ADS
Attrill, G.D.R., Engell, A.J., Wills-Davey, M.J., Grigis, P., Testa, P., (2009) Astrophys. J., 704, p. 1296. , ADS
Bagalá, L.G., Bauer, O.H., Fernández Borda, R., Francile, C., Haerendel, G., Rieger, R., (1999) Magnetic Fields and Solar Processes, p. 469. , Wilson A., (ed), ESA Special Publication, 448, ADS
Balasubramaniam, K.S., Cliver, E.W., Pevtsov, A., Temmer, M., Henry, T.W., Hudson, H.S., (2010) Astrophys. J., 723, p. 587. , ADS
Benz, A.O., (2008) Living Rev. Solar Phys., 5, p. 1. , ADS
Brueckner, G.E., Howard, R.A., Koomen, M.J., Korendyke, C.M., Michels, D.J., Moses, J.D., (1995) Solar Phys., 162, p. 357. , ADS
Chen, P.F., (2011) Living Rev. Solar Phys., 8 (1), p. 1. , ADS
Chen, P., Ding, M., Fang, C., (2005) Space Sci. Rev., 121 (1-4), p. 201. , ADS
Chen, P.F., Fang, C., (2005) Coronal and Stellar Mass Ejections, p. 55. , Dere K.P., Wang J., Yan Y., (eds), Proceedings IAU Symposium, 226, ADS
Chen, P., Fang, C., Shibata, K., (2005) Astrophys. J., 622 (2), p. 1202. , ADS
Chen, P., Wu, Y., (2011) Astrophys. J. Lett., 732 (2). , ADS
Chen, P., Wu, T., Shibata, K., Fang, C., (2002) Astrophys. J. Lett., 572 (1). , ADS
Cheng, X., Zhang, J., Olmedo, O., Vourlidas, A., Ding, M.D., Liu, Y., (2012) Astrophys. J. Lett., 745. , ADS
(2013) ISOON-based investigation of solar eruptions, , Cliver, E.W., Technical Report AFRL-RV-PS-TR-2014-0007, Air Force Research Laboratory
Cremades, H., Iglesias, F.A., St. Cyr, O.C., Xie, H., Kaiser, M.L., Gopalswamy, N., (2015) Solar Phys., 290, p. 2455. , ADS
De Pontieu, B., Title, A.M., Lemen, J.R., Kushner, G.D., Akin, D.J., Allard, B., (2014) Solar Phys., 289, p. 2733. , ADS
Delaboudinière, J.-P., Artzner, G.E., Brunaud, J., Gabriel, A.H., Hochedez, J.F., Millier, F., (1995) Solar Phys., 162, p. 291. , ADS
Delannée, C., (2000) Astrophys. J., 545, p. 512. , ADS
Delannée, C., Aulanier, G., (1999) Solar Phys., 190 (1-2), p. 107. , ADS
Delannée, C., Tórók, T., Aulanier, G., Hochedez, J., (2008) Solar Phys., 247 (1), p. 123. , ADS
Fernandez Borda, R.A., Mininni, P.D., Mandrini, C.H., Gómez, D.O., Bauer, O.H., Rovira, M.G., (2002) Solar Phys., 206, p. 347. , ADS
Francile, C., Castro, J.I., Leuzzi, L., Luoni, M.L., Rovira, M., Cornudella, A., (2008) Bol. Asoc. Argent. Astron., 51, p. 339. , ADS
Francile, C., Costa, A., Luoni, M.L., Elaskar, S., (2013) Astron. Astrophys., 552 (A3), p. 11. , ADS
Grechnev, V.V., Afanasyev, A.N., Uralov, A.M., Chertok, I.M., Eselevich, M.V., Eselevich, V.G., (2011) Solar Phys., 286 (2), p. 461. , ADS
Grechnev, V.V., Uralov, A.M., Chertok, I.M., Kuzmenko, I.V., Afanasyev, A.N., Meshalkina, N.S., (2011) Solar Phys., 273, p. 433. , ADS
Halain, J.-P., Berghmans, D., Defise, J.-M., Renotte, E., Thibert, T., Mazy, E., (2010) Space Telescopes and Instrumentation 2010: Ultraviolet to Gamma Ray, p. 77320P. , Proc. SPIE, 7732, ADS
Halain, J.-P., Berghmans, D., Seaton, D.B., Nicula, B., De Groof, A., Mierla, M., (2013) Solar Phys., 286, p. 67. , ADS
Hudson, H.S., Khan, J.I., Lemen, J.R., Nitta, N.V., Uchida, Y., (2003) Solar Phys., 212, p. 121. , ADS
Kaiser, M.L., Kucera, T.A., Davila, J.M., St. Cyr, O.C., Guhathakurta, M., Christian, E., (2008) Space Sci. Rev., 136, p. 5. , ADS
Khan, J.I., Aurass, H., (2002) Astron. Astrophys., 383, p. 1018. , ADS
Kienreich, I.W., Temmer, M., Veronig, A.M., (2009) Astrophys. J. Lett., 703. , ADS
Kleint, L., Battaglia, M., Reardon, K., Sainz Dalda, A., Young, P.R., Krucker, S., (2015) Astrophys. J., 806, p. 9. , ADS
Kosugi, T., Matsuzaki, K., Sakao, T., Shimizu, T., Sone, Y., Tachikawa, S., (2007) Solar Phys., 243, p. 3. , ADS
Kozarev, K.A., Korreck, K.E., Lobzin, V.V., Weber, M.A., Schwadron, N.A., (2011) Astrophys. J. Lett., 733. , ADS
Krause, G., Cécere, M., Francile, C., Costa, A., Elaskar, S., Schneiter, M., (2015) Mon. Not. Roy. Astron. Soc., 453 (3), p. 2799. , ADS
Kwon, R.Y., Ofman, L., Olmedo, O., Kramar, M., Davila, J.M., Thompson, B.J., Cho, K.S., (2013) Astrophys. J., 766 (55), p. 1. , ADS
Leenaarts, J., Carlsson, M., Rouppe van der Voort, L., (2012) Astrophys. J., 749, p. 136. , ADS
Lemen, J.R., Title, A.M., Akin, D.J., Boerner, P.F., Chou, C., Drake, J.F., (2012) Solar Phys., 275 (1-2), p. 17. , ADS
Li, T., Zhang, J., Yang, S., Liu, W., (2012) Astrophys. J., 746, p. 13. , ADS
Lin, R.P., Dennis, B.R., Hurford, G.J., Smith, D.M., Zehnder, A., Harvey, P.R., (2002) Solar Phys., 210, p. 3. , ADS
Liu, W., Ofman, L., (2014) Solar Phys., 289, p. 3233. , ADS
Liu, W., Nitta, N.V., Schrijver, C.J., Title, A.M., Tarbell, T.D., (2010) Astrophys. J. Lett., 723. , ADS
Liu, W., Ofman, L., Nitta, N.V., Aschwanden, M.J., Schrijver, C.J., Title, A.M., Tarbell, T.D., (2012) Astrophys. J., 753, p. 52. , ADS
Liu, C., Deng, N., Liu, R., Lee, J., Pariat, É., Wiegelmann, T., (2015) Astrophys. J. Lett., 812. , ADS
Long, D.M., DeLuca, E.E., Gallagher, P.T., (2011) Astrophys. J. Lett., 741. , ADS
Long, D.M., Gallagher, P.T., McAteer, R.T.J., Bloomfield, D.S., (2011) Astron. Astrophys., 531. , ADS
Long, D.M., Bloomfield, D.S., Gallagher, P.T., Pérez-Suárez, D., (2014) Solar Phys., 289, p. 3279. , ADS
Ma, S., Raymond, J.C., Golub, L., Lin, J., Chen, H., Grigis, P., (2011) Astrophys. J., 738, p. 160. , ADS
Mann, G., Aurass, H., Klassen, A., Estel, C., Thompson, B.J., (1999) In: 8th SOHO Workshop: Plasma Dynamics and Diagnostics in the Solar Transition Region and Corona, p. 477. , Vial J.-C., Kaldeich-Schü B., (eds), ESA Special Publication, 446, ADS
Markwardt, C.B., (2009) Astronomical Data Analysis Software and Systems XVIII, p. 251. , Bohlender D.A., Durand D., Dowler P., (eds), Astronomical Society of the Pacific Conference Series, 411, ADS
Moreton, G.E., (1960) Astron. J., 65, p. 494. , ADS
Moreton, G.E., Ramsey, H.E., (1960) Publ. Astron. Soc. Pac., 72, p. 357. , ADS
Moses, D., Clette, F., Delaboudinière, J.-P., Artzner, G.E., Bougnet, M., Brunaud, J., (1997) Solar Phys., 175, p. 571. , ADS
Muhr, N., Vršnak, B., Temmer, M., Veronig, A.M., Magdalenić, J., (2010) Astrophys. J., 708, p. 1639. , ADS
Narukage, N., Hudson, H.S., Morimoto, T., Akiyama, S., Kitai, R., Kurokawa, H., Shibata, K., (2002) Astrophys. J. Lett., 572. , ADS
Narukage, N., Morimoto, T., Kadota, M., Kitai, R., Kurokawa, H., Shibata, K., (2004) Publ. Astron. Soc. Japan, 56. , ADS
Narukage, N., Ishii, T.T., Nagata, S., UeNo, S., Kitai, R., Kurokawa, H., (2008) Astrophys. J. Lett., 684. , ADS
Ontiveros, V., Vourlidas, A., (2009) Astrophys. J., 693, p. 267. , ADS
Patsourakos, S., Vourlidas, A., (2009) Astrophys. J. Lett., 700. , ADS
Patsourakos, S., Vourlidas, A., (2012) Solar Phys., 281, p. 187. , ADS
Pesnell, W.D., Thompson, B.J., Chamberlin, P.C., (2012) Solar Phys., 275, p. 3. , ADS
Scherrer, P.H., Schou, J., Bush, R.I., Kosovichev, A.G., Bogart, R.S., Hoeksema, J.T., (2012) Solar Phys., 275, p. 207. , ADS
Seaton, D.B., Berghmans, D., Nicula, B., Halain, J.-P., De Groof, A., Thibert, T., (2013) Solar Phys., 286, p. 43. , ADS
Selwa, M., Poedts, S., DeVore, C.R., (2012) Astrophys. J. Lett., 747. , ADS
Selwa, M., Poedts, S., DeVore, C.R., (2013) Solar Phys., 284, p. 515. , ADS
Temmer, M., Vršnak, B., Žic, T., Veronig, A.M., (2009) Astrophys. J., 702, p. 1343. , ADS
Thernisien, A., Vourlidas, A., Howard, R.A., (2009) Solar Phys., 256, p. 111. , ADS
Thompson, B.J., Plunkett, S.P., Gurman, J.B., Newmark, J.S., St. Cyr, O.C., Michels, D.J., (1998) Geophys. Res. Lett., 25, p. 2465. , ADS
Uchida, Y., (1968) Solar Phys., 4, p. 30. , ADS
Uchida, Y., Altschuler, M.D., Newkirk, G., Jr., (1973) Solar Phys., 28, p. 495. , ADS
Veronig, A.M., Temmer, M., Vršnak, B., (2008) Astrophys. J. Lett., 681. , ADS
Veronig, A.M., Muhr, N., Kienreich, I.W., Temmer, M., Vršnak, B., (2010) Astrophys. J. Lett., 716. , ADS
Vršnak, B., Cliver, E.W., (2008) Solar Phys., 253, p. 215. , ADS
Vršnak, B., Warmuth, A., Brajša, R., Hanslmeier, A., (2002) Astron. Astrophys., 394, p. 299. , ADS
Vršnak, B., Žic, T., Lulić, S., Temmer, M., Veronig, A.M., (2016) Solar Phys., 291, p. 89. , ADS
Warmuth, A., (2010) Adv. Space Res., 45, p. 527. , ADS
Warmuth, A., (2015) Living Rev. Solar Phys., 12, p. 3. , ADS
Warmuth, A., Mann, G., (2011) Astron. Astrophys., 532. , ADS
Warmuth, A., Vršnak, B., Aurass, H., Hanslmeier, A., (2001) Astrophys. J. Lett., 560. , ADS
Warmuth, A., Vršnak, B., Magdalenić, J., Hanslmeier, A., Otruba, W., (2004) Astron. Astrophys., 418, p. 1101. , ADS
Warmuth, A., Vršnak, B., Magdalenić, J., Hanslmeier, A., Otruba, W., (2004) Astron. Astrophys., 418, p. 1117. , ADS
Webb, D.F., Howard, T.A., (2012) Living Rev. Solar Phys., 9, p. 3. , ADS
(2014) Direct Comparison of a solar Moreton wave, EUV wave and CME, , White, S., Balasubramaniam, K., Cliver, E.: Technical Report DTIC report AFRL-RV-PS-TP-2014-0004, Air Force Research Laboratory, Space Vehicles Directorate, 3550 Aberdeen Avenue SE, Kirtland AFB, NM 87117-5776
Wuelser, J.-P., Lemen, J.R., Tarbell, T.D., Wolfson, C.J., Cannon, J.C., Carpenter, B.A., (2004) Telescopes and Instrumentation for Solar Astrophysics, p. 111. , Fineschi S., Gummin M.A., (eds), Proc. SPIE, 5171, ADS
Zhang, Y., Kitai, R., Narukage, N., Matsumoto, T., Ueno, S., Shibata, K., Wang, J., (2011) Publ. Astron. Soc. Japan, 63, p. 685. , ADS

Citas:

---------- APA ----------

Francile, C., López, F.M., Cremades, H., Mandrini, C.H., Luoni, M.L. & Long, D.M. (2016) . Moreton and EUV Waves Associated with an X1.0 Flare and CME Ejection. Solar Physics, 291(11), 3217-3249.
http://dx.doi.org/10.1007/s11207-016-0978-y

---------- CHICAGO ----------

Francile, C., López, F.M., Cremades, H., Mandrini, C.H., Luoni, M.L., Long, D.M. "Moreton and EUV Waves Associated with an X1.0 Flare and CME Ejection" . Solar Physics 291, no. 11 (2016) : 3217-3249.
http://dx.doi.org/10.1007/s11207-016-0978-y

---------- MLA ----------

Francile, C., López, F.M., Cremades, H., Mandrini, C.H., Luoni, M.L., Long, D.M. "Moreton and EUV Waves Associated with an X1.0 Flare and CME Ejection" . Solar Physics, vol. 291, no. 11, 2016, pp. 3217-3249.
http://dx.doi.org/10.1007/s11207-016-0978-y

---------- VANCOUVER ----------

Francile, C., López, F.M., Cremades, H., Mandrini, C.H., Luoni, M.L., Long, D.M. Moreton and EUV Waves Associated with an X1.0 Flare and CME Ejection. Sol. Phys. 2016;291(11):3217-3249.
http://dx.doi.org/10.1007/s11207-016-0978-y