What is the purpose of heterodyning in radio astronomy?

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Heterodyning is a crucial radio signal processing technique used in radio astronomy to convert high-frequency signals into lower frequencies, making them easier to analyze. By mixing the incoming signal with a local oscillator, astronomers generate two frequencies: f1-f2, which is useful for analysis, and f1+f2, which is typically filtered out due to noise. This method allows for better signal processing and enhances the ability to detect faint astronomical signals. The lower frequency signals can be more easily digitized and processed, improving data analysis capabilities. Overall, heterodyning significantly aids in the observation and study of celestial phenomena.
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Hello all,

I'm aware that heterodyning is a radio signal processing technique as kindly explained by the Wiki article on the topic (http://en.wikipedia.org/wiki/Heterodyne).


However I don't understand how radio astronomers use this technique to aid their observations, what sort of analysis can they do with f1-f2 and/or f1+f2?


Thank you in advance,

Peter
 
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NGC said:
Hello all,

I'm aware that heterodyning is a radio signal processing technique as kindly explained by the Wiki article on the topic (http://en.wikipedia.org/wiki/Heterodyne).


However I don't understand how radio astronomers use this technique to aid their observations, what sort of analysis can they do with f1-f2 and/or f1+f2?

For higher frequencies, it is not directly convertible to electronic (digital) signals, the heterodyne technique lowers the frequency by utilizing the method of mixing. As you can see, by mixing the signal with the local oscillator creates f1-f2 and f1+f2; the f1-f2 term is the one that is being used and the f1+f2 will cause noise so it is just filtered out.
 
Astrofan said:
For higher frequencies, it is not directly convertible to electronic (digital) signals, the heterodyne technique lowers the frequency by utilizing the method of mixing. As you can see, by mixing the signal with the local oscillator creates f1-f2 and f1+f2; the f1-f2 term is the one that is being used and the f1+f2 will cause noise so it is just filtered out.

Thank you!

Do you know whether heterodyning involve any advantages to processing the data since the technique lowers the frequency?


Peter
 

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