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March 2006TAAPT conference Long Term Analysis of 20 MHz Solar Radio Events P. Mason, M. Villarreal, Dr. C. Higgins MTSU Department of Physics and Astronomy.

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Presentation on theme: "March 2006TAAPT conference Long Term Analysis of 20 MHz Solar Radio Events P. Mason, M. Villarreal, Dr. C. Higgins MTSU Department of Physics and Astronomy."— Presentation transcript:

1 March 2006TAAPT conference Long Term Analysis of 20 MHz Solar Radio Events P. Mason, M. Villarreal, Dr. C. Higgins MTSU Department of Physics and Astronomy Figure 1: This plot shows the daily sunspot numbers (blue) and the daily solar burst numbers multiplied by 10 (black). Even with the number of solar bursts increased by a factor of 10 it is hard to see a significant relationship between the sunspot number and the solar burst activity on a daily basis.

2 March 2006TAAPT conference Figure 2: The weekly plot of sunspot numbers versus solar burst numbers multiplied by 10 shows a slightly more noticeable correlation between the sunspot numbers and solar burst numbers. 2/5/06 2/20/06 20.1 MHz burst count (x10) Sunspot Number

3 March 2006TAAPT conference Figure 3 (above): A plot of the bi-monthly averages of sunspot numbers and the solar radio bursts shows a good correlation.

4 March 2006TAAPT conference Figure 4 (right): The best fit line through the scatter plot of intensity versus duration of the bursts shows a direct relationship. (Not all data shown)

5 March 2006TAAPT conference This graph displays the sunspot numbers over an approximate 11 year solar cycle (cycle 23). The dotted lines represent the upper and lower predicted thresholds, the smooth white line represents the smoothed monthly values. The maximum solar activity, as in all solar cycles, is in the middle of the cycle. This is when the magnetic flux inside the sun is at its highest.

6 March 2006TAAPT conference Figure 5: A comparison plot of the solar radio flux at 10.7 cm with the sunspot number over a period of 54 years. This comparison illustrates that the periodicity of the sunspot number matches the solar radio flux at 10.7 cm. Solar Radio flux graph, retrieved from The National Research Council of Canada http://www.drao- ofr.hia-iha.nrc-cnrc.gc.ca-icarus/www/maverplot.html Sunspot Number Graph retrieved from Marshall Space Flight Center http://www.science.msfc.nasa.govhttp://www.drao- ofr.hia-iha.nrc-cnrc.gc.ca-icarus/www/maverplot.html

7 March 2006TAAPT conference Fluctuations in both daily sunspot and solar radio burst numbers are very high, so correlations are not as evident. (Figure 1) The data (Figures 2 & 3) suggests a strong correlation between the numbers of observed sunspots and the number of observed solar radio bursts. As expected, we found that the intensity and duration of the solar bursts were related. With a few exceptions, the more intense bursts tended to have longer durations (Figure 4). This data covers a 12 month period. It is expected that a longer term comparison of 20 MHz data would show a strong correlation with the solar sunspot number and, therefore, the solar cycle.

8 March 2006TAAPT conference

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