by Cargo » Fri Dec 30, 2022 4:01 am
Now this is interesting.. and definitely electrical. ;]
"Ping" Wait 2 seconds. "Ping" Wait 2 seconds "Ping". That's what most ham radio operators heard yesterday when they received HAARP's radar transmission to asteroid 2010 XC15. Scott Tilley of Roberts Creek, British Columbia, took a closer look, and this is what he saw:
https://www.spaceweather.com/images2022 ... tilley.gif
Everyone who picked up the pulse did so because Earth's ionosphere reflected some of HAARP's radio energy back to Earth. Only a fraction escaped into space and reached the asteroid. Tilley's high-time-resolution recording of the pulse shows that multiple reflections (probably with a dash of ducting and refraction) were involved.
The complexity of the ionosphere, and how it modifies shortwave signals, is a key challenge for researchers who will be processing radar returns from asteroid 2010 XC15. Good luck!
hattip to strangesounds.substack for the ping ;p
Now this is interesting.. and definitely electrical. ;]
[quote]"Ping" Wait 2 seconds. "Ping" Wait 2 seconds "Ping". That's what most ham radio operators heard yesterday when they received HAARP's radar transmission to asteroid 2010 XC15. Scott Tilley of Roberts Creek, British Columbia, took a closer look, and this is what he saw:
https://www.spaceweather.com/images2022/28dec22/HAARP_2010XC15_tilley.gif
Everyone who picked up the pulse did so because Earth's ionosphere reflected some of HAARP's radio energy back to Earth. Only a fraction escaped into space and reached the asteroid. Tilley's high-time-resolution recording of the pulse shows that multiple reflections (probably with a dash of ducting and refraction) were involved.
The complexity of the ionosphere, and how it modifies shortwave signals, is a key challenge for researchers who will be processing radar returns from asteroid 2010 XC15. Good luck![/quote]
hattip to strangesounds.substack for the ping ;p