Difference between revisions of "GOES Flux vs STIX counts"

Revision as of 10:38, 15 January 2022

Fig. 1: Scatter plot of STIX counts versus GOES flux in log-log scale. 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.

File:Goes-stix-flux-fit.png

Fig. 2 A profile of the histogram and its fit of the quadratic function.

The GOES flux of a flare is estimated using

flux=10^(p0+p1*x+p2**x^2+p3*x^3),

with x=log10(stix_peak_counts)/r^2

where p0, p1, p2 are the parameters from the polynomial 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.

Difference between revisions of "GOES Flux vs STIX counts"

Revision as of 10:38, 15 January 2022

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@@ Line 4: / Line 4: @@
-The GOES flux of a flare is estimated using
+The GOES flux of a flare is estimated using<br>
-flux=10^(p0+p1*x+p2**x^2+p3*x^3),
-with x=log10(stix_peak_counts)/r^2
+flux=10^(p0+p1*x+p2**x^2+p3*x^3), <br>
-where p0, p1, p2 are the parameters from the polynomial 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.
+with x=log10(stix_peak_counts)/r^2<br>
+where p0, p1, p2 are the parameters from the polynomial 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.