About: Differential emission measures from the regularized inversion of Hinode and SDO data

Documentation

scienceplus.abes.fr version Bêta

scienceplus.abes.fr | explorer

À propos de : Differential emission measures from the regularized inversion of Hinode and SDO data Goto Sponge NotDistinct Permalink

Attributs	Valeurs
type	work Article
Is Part Of	http://hub.abes.fr/edp/periodical/aa/2012/volume_539/issue_2012/w
Subject	Sun: UV radiation The Sun Sun: X-rays, gamma rays Sun: chromosphere Sun: corona Sun: flares
Title	Differential emission measures from the regularized inversion of Hinode and SDO data
Date	2012-01-01(xsd:dateTime)
has manifestation of work	http://hub.abes.fr/edp/periodical/aa/2012/volume_539/issue_2012/aa17576-11/m/web http://hub.abes.fr/edp/periodical/aa/2012/volume_539/issue_2012/aa17576-11/m/print
related by	http://hub.abes.fr/edp/periodical/aa/2012/volume_539/issue_2012/aa17576-11/authorship/1 http://hub.abes.fr/edp/periodical/aa/2012/volume_539/issue_2012/aa17576-11/authorship/2
Author	Kontar Eduard P Hannah, I. G.
Abstract	Aims. To demonstrate the capabilities of regularized inversion to recover differential emission measures (DEMs) from multi-wavelength observations provided by telescopes such as Hinode and SDO. Methods. We develop and apply an enhanced regularization algorithm, used in RHESSI X-ray spectral analysis, to constrain the ill-posed inverse problem that is determining the DEM from solar observations. We demonstrate this computationally fast technique applied to a range of DEM models simulating broadband imaging data from SDO/AIA and high resolution line spectra from Hinode/EIS, as well as actual active region observations with Hinode/EIS and XRT. As this regularization method naturally provides both vertical and horizontal (temperature resolution) error bars we are able to test the role of uncertainties in the data and response functions. Results. The regularization method is able to successfully recover the DEM from simulated data of a variety of model DEMs (single Gaussian, multiple Gaussians and CHIANTI DEM models). It is able to do this, at best, to over four orders of magnitude in DEM space but typically over two orders of magnitude from peak emission. The combination of horizontal and vertical error bars and the regularized solution matrix allows us to easily determine the accuracy and robustness of the regularized DEM. We find that the typical range for the horizontal errors is Δlog T ≈ 0.1−0.5 and this is dependent on the observed signal to noise, uncertainty in the response functions as well as the source model and temperature. With Hinode/EIS an uncertainty of 20% greatly broadens the regularized DEMs for both Gaussian and CHIANTI models although information about the underlying DEMs is still recoverable. When applied to real active region observations with Hinode/EIS and XRT the regularization method is able to recover a DEM similar to that found via a MCMC method but in considerably less computational time. Conclusions. Regularized inversion quickly determines the DEM from solar observations and provides reliable error estimates (both horizontal and vertical) which allows the temperature spread of coronal plasma to be robustly quantified.
article type	research-article
publisher identifier	aa17576-11
Date Copyrighted	2012-01-01(xsd:dateTime)
Rights	© ESO, 2012
Rights Holder	ESO
is part of this journal	Astronomy & Astrophysics
is primary topic of	http://hub.abes.fr/edp/periodical/aa/2012/volume_539/issue_2012/aa17576-11/w/record

Alternative Linked Data Documents: ODE Content Formats:

RDF

ODATA

Microdata