Page 163 - Elana Freeland - Under an Ionized Sky

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atmosphere to increase power density in those layers. These modern tools of manipulation are essential to control of
the weather. By controlling the electromagnetic potential in the Earth’s atmospheric layers, man can affect natural
processes of weather. Subtle perturbations of these natural phenomena can direct the distribution and discharge of the
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Earth’s EM forces.

Wireless energy transfers (WETs) are essential not just for billions of cell phones and
computer transmissions on Earth but for “next generation aerospace systems”:

Our typical system for wireless energy transfer includes high power microwave generators, antennas or antenna
arrays, side lobe suppression radomes (SLSRs), and a tracking/control system. 127

Dependable WETs need a balanced acoustic resonance frequency between the ground and
the upper mesosphere within range of the Schumann resonance. 128
Thus one lifespan beyond World War II radar, the public is now bathed in the radiation of a
wireless world, convinced that radiation’s ubiquity is a necessary evil for national security while
teaching their children that cooking with microwaves and holding transmitters against their heads
are safe practices. Is it any wonder that people remain ignorant of EM manipulation of weather
events (droughts, floods, earthquakes, tornadoes, hurricanes) and geoengineered artificial plasma
cloud cover being delivered by jets? And don’t forget the military ground forces now requiring a
dense network of stationary and mobile ionospheric heaters, radar installations, NexRads,
GWEN and cell towers, wind farms, ship tracks, and fiber optic cable—all to keep our
atmosphere battery-ready and antenna-charged for wireless military operations. 129

SUPER-DARN (SUPER DUAL AURORAL RADAR NETWORK).

Described as “an international collaboration involving scientists and engineers in more than a
dozen countries,” SuperDARN HF radar installations (8–22 MHz) in the Northern and Southern
Hemispheres “provide global, instantaneous maps of plasma convection in the Earth’s
atmosphere.” 130 Among the university collaborators operating SuperDARN radars is HAARP’s
overseer, the Geophysical Institute at the University of Alaska Fairbanks (UAF). 131
Covering northern, middle, and southern latitudes, SuperDARN is constantly adding more
radar installations: two in Ft. Hays, Kansas (Virginia Tech); two in Christmas Valley, Oregon
(Dartmouth College); two in the Aleutian Islands (U.S.); two in the Azores Islands (Portugal);
etc. 132 The full scan of each of the thirty-five radar installations covers 52° in azimuth and over
3,000 km in range—that’s one million square kilometers, much like ionospheric heater
components.
Like other installations, the Ft. Hays, Kansas installation is now fully automated under
NASA/SuperDARN out of Wallops Missile Launch Range in Virginia and the new
supercomputer space systems at Virginia Tech. North of Ft. Hays is a wind farm constructed in a
102° arc with the SuperDARN site as its focal point. The Arecibo Observatory in Puerto Rico
has also been calibrated to match the pulsed frequencies of wind farms, fracking wells, SBXs,
NexRads, etc. This is how pathways are built up to maintain charges in the atmosphere by
weather alone. In other words, the large sweeps of conductive metal nanoparticles and wind farm
pulses work together to maintain an atmospheric power supply for all of the above systems
subject to SuperDARN and GWEN tower high frequency. All use effective radiated power
(ERP) for multiplication gain.

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