Page 47 - Elana Freeland - Under an Ionized Sky
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inflammation response.
This is not so true of aluminum and barium compounds. Even LLNL studies turn down the use of Al in chemspray
methods. The combined effects of these compounds with other pollutants can well cause lasting lung damage. 88
Phelps’ titanium-based method and recent reports of methane (CH ) being used to introduce
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metal salts to the combustion process point to two new methods of spray pyrolysis: infrasound
dispersion of water-soluble salts, and methane-based additives mixed with the jet fuel. But how
much and how many of the metal salts raining down on us are bio-available, and how many are
insoluble? What is obvious is that bioaccumulation of non-soluble crystals with electrochemical /
optical effects are now in the food chain and synergistically spell disaster.
Barium occurs naturally in barium-rich soil, but the piezoelectric barium nanocrystals
aerially distributed over North America are intended to enhance radar signals by refraction for
military C4 operations. Sadly, the excited piezoelectric crystals in barium, silver (silver nitrate
for cloud seeding), and strontium have been linked to chronic fatigue syndrome (CFS) clusters
and other transmissible spongiform encephalopathies (TSEs) like fibromyalgia. But this
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“collateral damage” does not concern the military, and the medical studies that might issue a
wake-up call to the public are marred by ignorance of the role played by the constant 24/7 aerial
delivery system.
The synthesis of (BaSr )TiO and creation of defined nanoparticles (chemiions) occurs
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during spray pyrolysis inside the jet engine chamber:
Spray pyrolysis involves passing an aerosol of a precursor solution through a graded temperature reactor in which the
individual droplets are thermally decomposed to form the oxide particles. 91
Clouds can then be “switched” on and off by zapping the piezoelectric barium-strontium-
titanate compound and altering its crystal geometry. The free current then charges the aerosol
particle and creates an ion that attracts moisture and forms a cloud.
Dielectric and piezoelectric barium titanate is excellent for nonlinear optics. High beam-
coupling gain means it can operate at visible and near-infrared wavelengths, and its pyroelectric
and ferroelectric properties make it useful for thermal camera sensors. In other words, the
compound’s optical capabilities are paramount in the military mind. With photons up-converted
and their spin altered, the “sky theater” above can offer holographic screening as well as plasma
cloud creation. Kautz-Vella explains:
With regards to barium-strontium-titanate used as aerosols in the atmosphere, this effect could be used to “switch”
clouds “on and off” by applying electromagnetic fields such as those created by HAARP and EISCAT devices or
other radar or microwave-radiating antenna systems. These research and military installations have equipment with
sufficient strength to alter the crystal geometry of the barium-strontium-titanate while in the atmosphere, which in turn
leads to free current that would charge the aerosol particle and create an ion that will attract vapor and instantly lead to
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the forming of a droplet in the then-forming cloud.
Once these non-soluble nanocrystals and their EM properties fall to Earth, however, they are
taken up as a whole by plants whose health and growth then suffer. In mammals and humans,
these same nanocrystals damage the nervous system and weaken biophotonic activity. Kautz-
Vella stresses that because (BaSr )TiO nanocrystals absorb biophotons, the nanoparticle-plasma
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mix affects DNA light communication while serving as a matrix for synthetic biology and self-
assembling nanomachines (like Morgellons). Electro-optical nanocrystals can produce signals
