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Title:
Determination of plasma temperatures and luminosities using multiple extreme-ultraviolet and X-ray filters
Authors:
Wood, Brian E.; Brown, Alexander; Linsky, Jeffrey L.
Affiliation:
AA(Univ. of Colorado, Boulder, CO, US), AB(Univ. of Colorado, Boulder, CO, US), AC(Univ. of Colorado, Boulder, CO, US)
Publication:
Astrophysical Journal, Part 1 (ISSN 0004-637X), vol. 438, no. 1, p. 350-363 (ApJ Homepage)
Publication Date:
01/1995
Category:
Astrophysics
Origin:
STI
NASA/STI Keywords:
PLASMA TEMPERATURE, STELLAR CORONAS, STELLAR LUMINOSITY, STELLAR MODELS, ULTRAVIOLET FILTERS, X RAY SPECTRA, ABUNDANCE, ASTRONOMICAL PHOTOMETRY, EMISSION SPECTRA, SPACE PLASMAS
DOI:
10.1086/175079
Bibliographic Code:
1995ApJ...438..350W

Abstract

We carefully examine the techniques used to infer temperatures of stellar coronal plasmas from the count rates of several broadband instruments in the X-ray and extreme-ultraviolet spectral ranges. In particular, we determine to what extent temperatures can be constrained and the corresponding uncertainties in the luminosities and emission measures lowered by fitting simultaneously count rates from the Einstein imaging proportional counter (IPC), the ROSAT Position Sensitive Proportional Counter (PSPC), the ROSAT Wide Field Camera (WFC) (both filters), and the EXOSAT Low Energy Telescope (LET) with the 3-Lex filter. We use published plasma emissivities with solar photospheric abundances. Since it has been found that single-temperature plasmas do not fit IPC data well, we assume a two-temperature plasma model. We find that, even with count rates from all of the above filters and overly optimistic error estimates, it is still not possible to determine a unique two-temperature solution. However, since the use of count rates from many filters can reduce substantially the number of possible solutions, temperature solutions determined by other means can be tested. We carry out such an analysis on a set of 18 nearby late-type stars to determine possible two-temperature solutions using multifilter photometry, and we compare these results with the temperature solutions derived by Schmitt et al. (1990) using IPC spectral data. In general, the two-temperature fits derived from the IPC spectral data are inconsistent with our results, with our data implying that, for many stars, the two temperatures derived by the IPC may be too low by about a factor of 2. The EXOSAT transmission grating Spectrometer (TGS) spectra of capella and sigma2 CrB support this conclusion. For Procyon and 70 Oph, though, the presence of a temperature component cooler than a million degress (not detected by the IPC) is deduced. While our analysis suggests the existence of more than one temperature in the coronae of late-type stars, in many instances our WFC data appear to be inconsistent with the presence of significant emission measure over a broad temperature distribution. This, together with the success of two-temperature plasmas in fitting IPC and TGS data, implies that for many stars, the coronal emission measure distribution may in fact be dominated by two distinct temperature regimes.

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