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On the nature of prominence emission observed by SDO/AIA View all abstracts by submitter

Susanna Parenti   Submitted: 2012-05-25 00:53

The Prominence-Corona Transition Region (PCTR) plays a key role in the thermal and pressure equilibrium of solar prominences. Our knowledge of this interface is limited and several major issues remain open, including the thermal structure and, in particular, the maximum temperature of the detectable plasma. The high signal-to-noise ratio of images obtained by the Atmospheric Imaging Assembly (AIA) on NASA's Solar Dynamics Observatory clearly show that prominences are often seen in emission in the 171 and 131 bands. We investigate the temperature sensitivity of these AIA bands for prominence observation, in order to infer the temperature content in an effort to explain the emission. Using the CHIANTI atomic database and previously determined prominence differential emission measure distributions, we build synthetic spectra to establish the main emission-line contributors in the AIA bands. We find that the Fe IX line always dominates the 171 band, even in the absence of plasma at > 10^6 K temperatures, while the 131 band is dominated by Fe VIII. We conclude that the PCTR has sufficient plasma emitting at > 4 10^5 K to be detected by AIA.

Authors: Susanna Parenti, Brigitte Schmieder, Petr Heinzel, Leon Golub
Projects: SDO-AIA

Publication Status: accepted on ApJ
Last Modified: 2012-05-25 11:39
Go to main E-Print page  Modelling the Propagation of a Weak Fast-Mode MHD Shock Wave near a 2D Magnetic Null Point Using Nonlinear Geometrical Acoustics  What Are Special About Ground-Level Events?   Edit Entry  Download Preprint  Delete Entry 

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