The next research campaign at HAARP is due this April. Between April 6th and April 14th, hams and shortwave listeners might get another chance to pick up the signals of the HAARP research facility located in Gakona, Alaska. See also my blog entries of January 29th, 2018 and August 18th, 2017.
Assistant research professor Chris Fallen, KL3WX, of the University of Alaska Fairbanks Geophysical Institute on March 29th twittered the following:
I must stay at @UAFairbanks for much of the @UAFHAARP campaign April 6-14, but will continue to tweet selected experiment freqs and modes when available. Have not forgotten about earlier QSLs (mea culpa!) and am working on a better system moving forward.
Follow Chris Fallen on Twitter for the latest updates.
The following news about the upcoming research campaign recently appeared on the ARRL website:
HAARP Facility to Resume Ionospheric Research this Week
Alaska’s super-power High-Frequency Active Auroral Research Program (HAARP) transmitters in Gakona, Alaska, will fire up again for the spring research campaign April 6 – 14. University of Alaska Fairbanks (UAF) Space Physics Group researcher and HAARP Chief Scientist Chris Fallen, KL3WX, told ARRL that more than 40 hours of “externally funded” experiments are in the queue.
“Scientists from US universities and government labs will explore the physics of scintillations, magnetic field-aligned plasma irregularities, artificial and natural atmospheric airglow, stimulated electromagnetic emissions, plasma waves, and radio-enhanced ionization,” Fallen said. “The HAARP transmitter is still at 80% net power, but by summer we expect to have the final ‘column’ of transmitters restored, bringing the array back to 100%.”
For his part, Fallen said he still has some time remaining on his National Science Foundation (NSF) grant to study artificial airglow, but added that this is “a tough time of year in a tough year of the solar cycle” for such experiments. “It will not be dark enough in Gakona to observe artificial airglow emissions until 10 PM at the beginning of the campaign and 10:30 PM at the end of the campaign, due to the rapidly lengthening days in the Land of Midnight Sun.”
Fallen said that due to weakening solar activity, the critical frequency of the ionosphere’s F2 layer (foF2) is relatively low during the day, peaking at a little more than 4 MHz above Gakona in the late afternoon, and falling rapidly in the evening. “This limits the time available for experiments, since airglow is usually only created when the HAARP transmission frequency is near or below foF2,” Fallen explained. “The lower limit of the HAARP transmitter is approximately 2.7 MHz, and so we can only expect perhaps 30 minutes or less of usable airglow experiment time each day.”
Fallen said he is considering his options and plans to continue “bundling” amplitude modulations in the airglow experiments of interest to hams. His previous airglow experiments were accompanied by tones and music to illustrate the Luxembourg effect and slow-scan television (SSTV) images in Scottie 1 format.
“In future experiments, I want to try sending text and images using one of the MFSK modes,” Fallen told ARRL. “Several hams have requested I try the smoking hot FT8 mode with HAARP. Since that is a mode primarily designed for two-way contacts and makes use of time synchronization to help achieve amazing efficiency, it is not yet clear to me how to best do this with HAARP which currently has no receive capability.”
Fallen said he has to be at UAF for much of the April campaign but will be at HAARP toward the end. He plans to tweet selected transmitter frequencies and other information throughout the campaign from his personal Twitter page. HAARP’s official Twitter page will share photos and other information of general interest, “such as what the HAARP dog is up to,” Fallen said.
Operation of the HAARP research facility was transferred from the US Air Force to UAF in 2015.