TRAPPED IN A MASONIC WORLD

Some of the main scientific findings from HAARP include:
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1. Generation of very low frequency [VLF] radio waves by modulated heating of the auroral
electrojet, useful because generating VLF waves ordinarily requires gigantic antennas
2. Production of weak luminous glow [below what can be seen with the naked eye, but measurable,
though recent exposed photographs show this not to be the case, and highly visible, thus the signals being
used must be much stronger than were being led to believe they are using] from absorption of HAARP's
signal
3. Production of extremely low frequency [ELF] waves in the 0.1 Hz range. These are next to
impossible to produce any other way, because the length of a transmit antenna is dictated by the
wavelength of the signal it is designed to produce.
4. Generation of whistler-mode VLF signals which enter the magnetosphere, and propagate to the
other hemisphere, interacting with Van Allen radiation belt particles along the way
5. VLF remote sensing of the heated ionosphere
HAARP technology has rapidly moved on, and presently there are two other related ionospheric heating
facilities: the HIPAS, near Fairbanks, Alaska, [currently offline for reconstruction], and one in Puerto
Rico. The European Incoherent Scatter Scientific Association [EISCAT] operates an ionospheric heating
facility, capable of transmitting over 1 GW [one billion watts], of effective radiated power [ERP], into the
ionosphere, - the electrically charged layer above Earth‘s atmosphere. Scientists, such as the following
quoted, are saying that in other words, the apparatus is the reversal of a radio telescope, - though only
transmitting and not receiving. It can ‗boil the upper atmosphere‘. After [heating] and disturbing the
ionosphere, the radiations bounce back onto the earth in a form of long waves which can even penetrate
our bodies, the ground and the oceans, - EISCAT is near Tromsø, Norway. Russia too has a plant, the Sura
Ionospheric Heating Facility, in Vasilsursk near Nizhniy Novgorod, capable of transmitting 190 MW [190
million watts], effective radiated power [ERP]. [1][2]
One application is to map out the underground complexes of countries such as Iran and North Korea.
It‘s said the current facilities [that we know of] lack the range to reach these countries, but the research
could be used to develop a mobile platform, and more importantly, how do we know for certain they
already do not exist? [3]
Many areas all over the world have ‗no-go zones‘, heavily protected by the military, and particularly in
war-torn areas, - how do we really know what‘s taking place in hidden forests and jungles, or the many
mountainous regions around the world, and that portable platforms in the guise of an oil rig, or something
like an aircraft carrier etc. are not already being used? And this is the thing about HAARP technology, - is
that it very lightweight and not complex.
Here‘s an extract from an article written by David Hambling on 12th January 2010 in the Wired
magazine, titled: Pentagon Scientists Target Iran‘s Nuclear Mole Men, - yet this information was widely
available and appeared in many other forms of media.
Iran‘s nuclear facilities may be deeply-buried in a ―maze of tunnels‖ - making them hard to find and
even harder to destroy. But the Pentagon is working on some new technological tricks for exactly this kind
of mission. That‘s why the U.S. Air Force is rushing the Massive Ordnance Penetrator into production.
The MOP can punch through 60 feet of concrete, but this is the very bluntest of instruments for the job.
There is more subtle technology to seek out and destroy such facilities. The Pentagon‘s science division
the DARPA has an array of research projects devoted to Underground Facility Detection &
Characterisation.
According to the program‘s website, the agency‘s Strategic Technologies Office is: ―...investing in
sensor technologies that find, characterise and identify facility function, pace of activity, and activities in
conjunction with their pre- and post-attack status. STO is also investigating non-nuclear earth-penetrating
systems for the defeat of hard and deeply buried targets.‖
Seeing through solid rock might sound like a tall order, but DARPA thrives on challenge. One project
is called Airborne Tomography using Active Electromagnetics, which builds on technology originally
developed by the geophysical exploration industry. The ground is illuminated with electromagnetic
energy-typically extremely low frequency [ELF] and the distortions on the return show the presence of
underground facilities and tunnels.