Mostrando 4 resultados de: 4
First Solar Orbiter observation of the Alfvénic slow wind and identification of its solar source
ArticleAbstract: Context. Turbulence dominated by large-amplitude, nonlinear Alfvén-like fluctuations mainly propagatPalabras claves:Interplanetary medium, magnetohydrodynamics (MHD), methods: data analysis, solar wind, Sun: general, TurbulenceAutores:André N., Angelini V., Bruno R., Coco I., De Marco R., D’Amicis R., Evans V., Fedorov A., Genot V., Horbury T.S., Jagarlamudi V.K., Lavraud B., Livi S., Louarn P., Luca Sorriso-Valvo, Marcucci M.F., Matteini L., Müller D., O'brien H., Owen C.J., Panasenco O., Perrone D., Pezzi O., Rouillard A.P., Telloni D., Tenerani A., Velli M.C., Verscharen D., Woodham L.D., Zouganelis I.Fuentes:scopusFirst polar observations of the fast solar wind with the Metis Solar Orbiter coronagraph: Role of 2D turbulence energy dissipation in the wind acceleration
ArticleAbstract: Context. The fast solar wind is known to emanate from polar coronal holes. Aims. This Letter reportsPalabras claves:magnetohydrodynamics (MHD), solar wind, Sun: corona, Sun: UV radiationAutores:Adhikari L., Andretta V., Antonucci E., Bruno R., Burtovoi A., Capuano G.E., De Leo Y., Deppo V.D., D’Amicis R., Fineschi S., Giordano S., Grimani C., Heinzel P., Jerse G., Landini F., Liberatore A., Luca Sorriso-Valvo, Moses J.D., Naletto G., Nicolini G., Pancrazzi M., Perrone D., Raffaele Marino, Romoli M., Russano G., Sasso C., Slemer A., Spadaro D., Stangalini M., Susino R., Telloni D., Teriaca L., Uslenghi M., Vai M., Zank G.P., Zhao L.L.Fuentes:scopusRadial evolution of the intermittency of density fluctuations in the fast solar wind
ArticleAbstract: We study the radial evolution of the intermittency of density fluctuations in the fast solar wind. TPalabras claves:Interplanetary medium, magnetohydrodynamics (MHD), methods: data analysis, solar wind, WavesAutores:Bruno R., Carbone V., D’Amicis R., Luca Sorriso-Valvo, Malara F., Pietropaolo E., Primavera L., Telloni D., Veltri P.Fuentes:scopusStudy of two interacting interplanetary coronal mass ejections encountered by Solar Orbiter during its first perihelion passage: Observations and modeling
ArticleAbstract: Context. Solar Orbiter, the new-generation mission dedicated to solar and heliospheric exploration,Palabras claves:magnetohydrodynamics (MHD), solar wind, Solar-terrestrial relations, Sun: coronal mass ejections (CMEs), Sun: evolution, Sun: heliosphereAutores:Adhikari L., Angelini V., Antonucci E., Bruno R., Carbone F., Chust T., Davies E.E., De Marco R., D’Amicis R., Evans V., Fineschi S., Giordano S., Gómez-Herrero R., Hietala H., Horbury T.S., Ivanovski S.L., Jagarlamudi V.K., Khotyaintsev Y.V., Kretzschmar M., Laker R., Liang H., Luca Sorriso-Valvo, Maksimovic M., Mancuso S., Messerotti M., Möstl C., Müller D., Nakanotani M., O'brien H., Perri S., Perrone D., Raffaele Marino, Reiss M.A., Rodríguez-Pacheco J., Romoli M., Scolini C., Souček J., Stangalini M., Steinvall K., Susino R., Telloni D., Vecchio A., Weiss A.J., Wimmer-Schweingruber R.F., Winslow R.M., Woodham L.D., Zank G.P., Zhao L.L., Zouganelis I.Fuentes:scopus