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− | [[File:Goes-stix-scatter.png|800px|thumb|none| Fig. 1: Scatter plot of STIX counts versus GOES flux in log-log scale. | + | [[File:Goes stix flux fit lms.png|800px|thumb|none| Scatter plot of STIX counts (4 - 10 keV) versus GOES and as well as a linear fit and a polynomial fit to the data. ]] |
− | STIX counts are divided by the squared distances between Solar Orbiter and the Sun. 1045 flares with look-angles from the Earth smaller than 90 degrees are selected. ]]
| + | The GOES flux of a solar flare is estimated using<br> |
− | [[File:Goes-stix-flux-fit.png|600px|thumb|none| Fig. 2 A profile of the histogram and its fit of the quadratic function. ]]
| + | flux=10^(p0+p1*x), <br> |
| + | with x=log10(stix_peak_counts*r^2)<br> |
| + | where p0, p1 are the parameters from the curve fit, peak_counts is the STIX QL LC peak |
| + | counts and r is the distance between the Sun and solar orbiter in units of au. <br> |
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− | The GOES flux of a flare is estimated using
| + | [[File:Goes_background.png |600px|thumb|none| An example of estimated GOES flux background. ]] |
− | flux=10^(p0+p1*x+p2**x^2+p3*x^3), | |
− | with x=log10(stix_peak_counts)/r^2
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− | where p0, p1, p2 are the parameters from the polynomial curve fit,
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− | peak_counts is the STIX QL LC peak counts and r is the distance between the Sun and solar orbiter in units of au.
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Latest revision as of 10:29, 21 January 2022
Scatter plot of STIX counts (4 - 10 keV) versus GOES and as well as a linear fit and a polynomial fit to the data.
The GOES flux of a solar flare is estimated using
flux=10^(p0+p1*x),
with x=log10(stix_peak_counts*r^2)
where p0, p1 are the parameters from the curve fit, peak_counts is the STIX QL LC peak
counts and r is the distance between the Sun and solar orbiter in units of au.
An example of estimated GOES flux background.