📄 Abstract
A radio JOVE telescope receiver and dipole antenna were assembled, characterized and tested to detect extraterrestrial signals from planet Jupiter. Two element dipole arrays were built for the detection of 20.1MHz radio emission from the Jupiter-Io interaction, strong solar burst, the galactic background and the transit of the galactic center. Using the specifications and the layout, the dipole array was constructed. The block diagram, the schematic diagram built for NASA was used to solder together the radio frequency band pass filter, audio Preamplifier and audio amplifier to make the radio JOVE receiver. This was characterized, tested and tuned by setting the tuning knob to 20.0MHz. The dipole antenna was connected to the receiver and a variety of radio frequency emissions were detected. These signals were captured on a personal computer via the radio Jupiter Pro 3.8.3 and radio skypipe 2.6.5 software compatible with windows 7 OS and has python programme which converts data from the sod format to ASCII format to conveniently analysed them. The device was confirmed working as the assembled Radio JOVE kit sends signals to system and were captured by the software on the system.
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📚 How to Cite:
Adesunloro Gbenga Michael , ASSEMBLY, TEST OF RADIO JOVE KIT TO TRACK SOLAR AND JUPITER RADIATION , Volume 7 , Issue 8, august 2022, EPRA International Journal of Research & Development (IJRD) ,