首页>
外文期刊>The Astrophysical journal
>STUDY OF EXTREME-ULTRAVIOLET EMISSION AND PROPERTIES OF A CORONAL STREAMER FROM PROBA2/SWAP, HINODE/EIS AND MAUNA LOA Mk4 OBSERVATIONS
【24h】
STUDY OF EXTREME-ULTRAVIOLET EMISSION AND PROPERTIES OF A CORONAL STREAMER FROM PROBA2/SWAP, HINODE/EIS AND MAUNA LOA Mk4 OBSERVATIONS
展开▼
机译:Proba2 / swap,Hinode / EIs和Mauna Loa Mk4观测结果表明,冠状流形物的极紫外光发射和性能
Wide-field extreme-ultraviolet (EUV) telescopes imaging in spectral bands sensitive to 1 MK plasma on the Sun often observe extended, ray-like coronal structures stretching radially from active regions to distances of 1.5-2 R ☉, which represent the EUV counterparts of white-light streamers. To explain this phenomenon, we investigated the properties of a streamer observed on 2010 October 20 and 21, by the PROBA2/SWAP EUV telescope together with the Hinode/EIS (HOP 165) and the Mauna Loa Mk4 white-light coronagraph. In the SWAP 174 ? band comprising the Fe?IX-Fe?XI lines, the streamer was detected to a distance of 2 R ☉. We assume that the EUV emission is dominated by collisional excitation and resonant scattering of monochromatic radiation coming from the underlying corona. Below 1.2 R ☉, the plasma density and temperature were derived from the Hinode/EIS data by a line-ratio method. Plasma conditions in the streamer and in the background corona above 1.2 R ☉ from the disk center were determined by forward-modeling the emission that best fit the observational data in both EUV and white light. It was found that the plasma in the streamer above 1.2 R ☉ is nearly isothermal, with a temperature of T = 1.43 ± 0.08?MK. The hydrostatic scale-height temperature determined from the evaluated density distribution was significantly higher (1.72 ±?0.08 MK), which suggests the existence of outward plasma flow along the streamer. We conclude that, inside the streamer, collisional excitation provided more than 90% of the observed EUV emission, whereas, in the background corona, the contribution of resonance scattering became comparable with that of collisions at R 2 R ☉.
展开▼