A SIMPLE DECAMETRIC RADIO TELESCOPE FOR JUPITER

by Bob Greef (all pictures courtesy of Bob except where noted otherwise)


As a keen amateur astronomer I was used to observing visually with my local astronomical society, the Breckland Astronomical Society, with the club’s 19 inch reflector or my own 70 mm refractor and 8 inch reflector. This often ended in frustration due to cloudy skies.

On joining a second local society, the Norwich Astronomical Society as well as Breckland, I became intrigued by the pair of radio dishes they had erected at the observatory. Questions revealed that a former member had obtained these dishes had erected them then moved away from the area.

I thought to myself “this is the answer to cloudy skies” and proceeded to gather information about observing at wavelengths other than visual. One of my early discoveries on Internet searches was the NASA Radio Jove Project that encourages high schools to observe the decametric emissions from Jupiter using relatively simple and reasonably cheap equipment.

I downloaded all the plans for the antenna and receiver then sought out some assistance before committing to the purchase of the necessary components. One of the members of both societies is a professional radio and TV engineer and keen amateur radio enthusiast. I had spent some time doing visual observation and CCD imaging with him and enlisted his help.


Diagram of antenna.

Among his archives was a photocopy of an article from the December 1989 edition of Sky and Telescope entitled ‘Build a 21 MHz Jupiter Antenna’ by David Rosenthal that described the construction of a low cost antenna designed to be used with a short wave receiver to listen to Jupiter’s decametric emissions.

This looked very attractive as a first step on the road to radio astronomy so I built my own modified version using the Sky and Telescope plans. The antenna was linked to a cheap multiband radio receiver via some ordinary television co-axial cable. This was achieved by removing most of the supplied telescopic antenna and fitting a co-axial connector in its place.


Picture showing TV coaxial connector replacing radio's antenna.

Connection of coaxial cable to antenna.

The only things I had to buy were the copper wire, the co-axial cable and the little multiband radio, everything else was to hand as left overs from domestic and garden projects. The total cost of the materials I have estimated at well under £50 including the radio.


A radio telescope for under 50 pounds!

My first target was the Sun and as we had just passed solar maximum there were still periodic outbursts of sunspots, which generate massive radio emissions that could be clearly heard via the radio loudspeaker. Swinging the antenna across the Sun revealed the wide angle that the radio Sun occupies in the sky.


Trace of the sun with this telescope.

This was last September and as Jupiter became an evening object in the late autumn skies I began to listen to the sounds of Radio Jove via my simple set up.


Trace of Jupiter with this telescope.


Trace of quiet sky for comparison.


This is not without problems, the main one being that the 18 to 25 MHz band is crowded with terrestrial transmissions. This can get to be so bad that no observations are possible and at other times fortunately the ionosphere becomes less reflective and Radio Jove can be easily heard.

The other big problem is that Jupiter does not transmit constantly at decametric wavelengths. The orbit of the satellite Io through the magnetically created torus of matter that surrounds Jupiter creates spectacular but only sporadic bursts of emissions that are still very much the subject of study and quantification. Tables for predicting the likelihood of Jovian radio emissions may be downloaded from the University of Florida’s website.

To complete the apparatus I have recently begun to feed the sounds via the earpiece jack to a simple audiocassette recorder then play them back through the sound card of my PC. This allows me to run the emissions through Radio Sky’s Radio-Sky Pipe software to create a visual and measurable record.

This software in its basic form is available as a free download from Radio Sky’s website. I have included some of my better Radio-Sky Pipe traces in these pages and they may be compared with verified traces from the Radio Jove site.



Picture of me with the antenna. Looking on are Mark Lawrik-Thompson (FRAS and chair of NAS) and his wife, Helen.
(Picture courtesy of  Mark Humphrys of the Norwich Astronomical Society)