University of Otago physicists have used a small glass bulb containing an atomic vapor to demonstrate a new form of antenna for radio waves. The bulb was "wired up" with laser beams and could therefore be placed far from any receiver electronics.
University of Otago physicists have used a small glass bulb containing an atomic vapor to demonstrate a new form of antenna for radio waves. The bulb was “wired up” with laser beams and could therefore be placed far from any receiver electronics.
Apparently it can cover more frequencies than a typical antenna design. Cool
I do think it can receive on many frequencies at once. But I think the Fourier transform won’t be able to untangle a signal if that signal is broadcast continuously on all frequencies.
It covers more frequencies as in wavelengths as in the bigger the wavelength the bigger the length of the antenna (to put it simply). In this case they’re saying you wouldn’t need to make it as large as a conventional antenna to receive the same frequencies, or you could make it large and receive more frequencies.
Apparently it can cover more frequencies than a typical antenna design. Cool
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Really. Wouldn’t broadcasting on all spectrums basically just be noise?
Edit: the article says “have broad tunability” which I take to mean that no, they just operate on one frequency at a time
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I do think it can receive on many frequencies at once. But I think the Fourier transform won’t be able to untangle a signal if that signal is broadcast continuously on all frequencies.
It covers more frequencies as in wavelengths as in the bigger the wavelength the bigger the length of the antenna (to put it simply). In this case they’re saying you wouldn’t need to make it as large as a conventional antenna to receive the same frequencies, or you could make it large and receive more frequencies.