Society of Amateur Radio Astronomers: Solar Radio Observing

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Solar Radio Observing with the AAVSO's Gyrator II Radio
By Jon Wallace, email fjwallace at snet dot net

Solar Flares & Prominences

Sunspots are areas of lower temperature but high activity on the sun. These are caused by the looping and shearing of the magnetic field lines due to the sun's differential rotational speeds (i.e.: equator rotates faster than poles). Many times, flares and prominences (loop-like structures) are associated with these sunspots.
(Click on thumbnails to see full-sized images)

Solar Flares and the Ionosphere

Solar Flares are a tremendous explosive burst of light and material from the sun. A flare gives off as much energy as the earth consumes in 100,000 years. This energy can affect the Ionosphere, changing the height of the D, E and F layers and affects communications, etc.

Sudden Ionospheric Disturbances (SIDs)

The flare-induced changes in the Ionosphere can be detected using various radio frequencies. The AAVSO has chosen to use VLF. I use the 24.0 KHz signal from Cutler, Maine.

The AAVSO Radio & Antenna

Check out the AAVSO site for all the relevant information and schematics:

http://www.aavso.org/observing/programs/solar/sid.shtml

Far Circuits sells a circuit board for this project for about $7 (details on the site). It makes it a lot easier to build the project. Most parts are available from Radio Shack or Mouser Electronics. I used a ten-turn potentiometer for the tuning so I can get better control. The antenna is easy to make but consists of 125-200 turns of wire!

Detected flares are generally caused by X-ray flares and have various flux levels associated with them (see chart below). The radio detection records a peak (or a trough as in my case) when a flare is detected (see graphs below).

To join the AAVSO Solar Radio group simply register on-line. You are given a number and a program to use to facilitate sending the data the group leader and the data is made into a monthly chart. Charts and other solar data for the month are available from:

http://www.aavso.org/observing/programs/solar/bulletin.shtml

Please feel free to contact me for more information, questions, or comments.

X-ray Class x = peak flux in the 0.1 to 0.8 nm range

X-ray Class In mks system
Wm-2 In cgs system
cm-2 s-1

A < x 10-7 x 10-4

B 10-7 <= x 10-6 10-4 <= x 10-3

C 10-6 <= x 10-6 10-3 <= x 10-2

M 10-5 <= x 10-6 10-2 <= x 10-1

X 10-4 <= x 10-1 <= x

X-ray Class	In mks system Wm-2	In cgs system cm-2 s-1
A	< x 10-7	x 10-4
B	10-7 <= x 10-6	10-4 <= x 10-3
C	10-6 <= x 10-6	10-3 <= x 10-2
M	10-5 <= x 10-6	10-2 <= x 10-1
X	10-4 <= x	10-1 <= x

Integrated flux from start to end, in joules m E-2.

	A quiet day with no flares present. Note the peaks on both ends - called the sunrise effect. (Click on thumbnail to see full-sized image)
	A day with several large flares. Flares usually appear as upward peaks - on my receiver they appear as downward troughs. These are M1.6 & M2.3 flares (respectively) (Click on thumbnail to see full-sized image)
	A day with an amazing X 14.4 flare! (Click on thumbnail to see full-sized image)

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this page last updated 20 Jun 2009
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