Cold-Plasma Beam Experiments - American Antigravity
Cold-Plasma Beam Experiments - American Antigravity
Cold-Plasma Beam Experiments - American Antigravity
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York & Windell, 2006<strong>Cold</strong>-<strong>Plasma</strong> <strong>Beam</strong> <strong>Experiments</strong>
York & Windell, 2006<strong>Cold</strong>-<strong>Plasma</strong> <strong>Beam</strong> <strong>Experiments</strong>In 1990 my associate Warren York and I began experimentingwith modulating resonant plasma beams. We soon discovered thatby placing a target in or near the beam we could cause structurallattice changes in various crystalline materials. We were forced totemporarily suspend our investigations due to lack of funding.However, last year we were able to again continue our work. Wefound that we could harden or soften crystals by simply changingthe phase angle and duty cycle of the resonant beam.We also found that we could increase the performance ofsemiconductors by about 30%. We believe that many of theanomalous effects were due to time dilation. We have observedthe apparent conversion of electrical energy in excess of what canbe explained by conventional theory. It was also found that manyother strange and interesting effects could be produced. We arenow working on making sure that all of the observed phenomenaare 100% reproducible.– Mike Windell
York & Windell, 2006<strong>Cold</strong>-<strong>Plasma</strong> <strong>Beam</strong> <strong>Experiments</strong>Experimental Overview: In the corona discharge plasmabeamdevice shown, the electrodes are being driven by twoindependently controlled high voltage oscillator/drivers, eachoperating at variable frequencies, pulse widths and phaseangles. The plasma is formed across an arc gap between thetwo magnetic electrodes which are contained in a high vacuumtube cavity, and forms a spinning plasma-vortex that travelsthe entire length of the tube, as seen in experimental photos.
York & Windell, 2006<strong>Cold</strong>-<strong>Plasma</strong> <strong>Beam</strong> <strong>Experiments</strong>
York & Windell, 2006<strong>Cold</strong>-<strong>Plasma</strong> <strong>Beam</strong> <strong>Experiments</strong>
York & Windell, 2006<strong>Cold</strong>-<strong>Plasma</strong> <strong>Beam</strong> <strong>Experiments</strong>Materials Effects: The molecular structure of the quartzcrystal shown above was changed by the plasma-beam. Onesection of crystal became jellified into a putty-like consistency,and another was hardened enough to cut diamond. Theseeffects resemble similar reports by inventor John Hutchison.
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