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               resumed.  All systems connected with monitoring and controlling geospace, the ionosphere and
               magnetosphere, and harnessing cosmic processes to serve the Space Fence, have been upgraded
               and synchronized, including the International Space Station (ISS).
                   CERN  studies  how  cosmic  rays  affect  the  plasma  clouds  now  being  produced  in  the
               troposphere and stratosphere by chemtrail jets, ships, and sounding rockets, as well as how to
               keep  the  electromagnetic  circuit  depositing  ions  to  form  the  molecules  that  create  plasma—
               molecules that CERN propagates via its CLOUD experiments.
                   The Cosmics Leaving Outdoor Droplets (CLOUD) experiment uses a special cloud chamber
               to study the possible link between galactic cosmic rays and cloud formation. Based at the Proton
               Synchrotron (PS) at CERN, this is the first time a high-energy physics accelerator has been used
               to study atmospheric and climate science. The results should contribute much to our fundamental
               understanding of aerosols and clouds, and their affect [sic] on climate. 4
                   Remarkably similar to Tesla’s Wardenclyffe Tower dome, CERN’s Globe of Science and
               Innovations generates and feeds energy into the Global Atmospheric Electrical Grid. Similar to
               the Space Fence, CERN’s mission includes creating and sustaining an atmospheric medium for
               wireless power (C4).

                     CERN’s mission of inducing voltage into the Global Atmospheric Electrical Grid is being accomplished by the ionic
                     jet outflow perpendicular to the Globe of Science and Innovation. Ions are increased in energy and ejected into the
                     Ionosphere  by  the  phenomena  patented  by  [David]  La  Point.  Once  that  charge  potential  is  induced  into  our
                     environment, it can be used for wireless energy harvesting globally. The technology is being developed by DARPA:
                     Fractal Rectenna [receiving antenna] Array technology. 5


                   The present count of particle accelerators affiliated with an international partnership of thirty-
               four institutions is as slippery as ionospheric heaters, but at least three in the United States are
               part of the more than 160 international support particle accelerator groups connected via ESnet5
                                          6
               (Energy Sciences Network)  fiber optics. Including CERN, particle accelerators generate 100X
               more magnetic energy than the entire planet naturally generates, especially when synchronized
               with mirrored satellite lasers creating electrical discharges (sprites).
                   Fermi National Accelerator Laboratory at the FermiLab outside Chicago in Batavia, Illinois,
               was recently upgraded with a 680-ton superconducting magnet for its Tevatron.
                   Los Alamos National Laboratories houses the High Current Proton Accelerator.
                   Brookhaven National Laboratory houses the Cosmotron. As I indicated in the Preface, BNL
               may  have  participated  in  the  downing  of  the  World  Trade  Towers  in  2001.  Here  is  David
               Masem,  advanced  technology  engineer  and  senior  Unix  administrator  who  worked  at  BNL
               2000–2003. As per his request, his story is quoted at length so readers can get a picture of what
               national labs are like:


                     When  I  worked  at  BNL,  director  John  Marburger  III,  Ph.D.,  had  just  been  chosen  to  serve  as  science  advisor  to
                     President George W. Bush. The head of the physics department then became the acting director. As he was a personal
                     friend of my manager, I was given free rein at the RHIC particle accelerator (Relativistic Heavy Ion Collider) and
                     collision  detect  for  Project  Aerosol’s  study  of  aerosol  and  nanoparticle  impact  on  the  environment  under  SAG
                     (Stratospheric  Aerosol  Geoengineering)  research.  As  a  Unix  Systems  Administrator,  I  configured  real-time  Unix
                     servers to perform samplings of collisions of positive and negative charged ions. I also configured Apache websites
                     (just templates) for publishing the physicists’ findings. During one of my Project Aerosol meetings, I found out that a
                     mini-HAARP was under construction. There are a number of reactors there, several defunct and several more popular
                     gradient & graphite reactors for which I had no clearance.
                        Since I worked closely with the physicists, I was friended by several from Europe who were also working on the
                     CERN. Over lunch one day at the BNL commissary, one physicist announced that he was going to publicly denounce
                     BNL for its involvement in geoengineering research. But he never had the chance to do so as he had an “accident” in
                     Pt. Jefferson while on his motorcycle and was pronounced dead at the scene. As a result of his “accident,” I started to