We’re joined by Dr. Eugene Podkletnov to discuss recent (2004 to 2013) experimental antigravity research in gravity modification and superconductors. For nearly two decades Dr. Podkletnov has been researching the link between gravitation and high-temperature superconductors, and just recently published the peer-review results of new experiments he’s conducted to measure the speed of a force-beam projected by a stationary superconducting apparatus he’s developed.
Podkletnov is well-known for his experiments involving YBCO superconductors, which produced a gravity-shielding effect that was investigated by NASA and has been the subject of many peer-review papers. He describes continuing his experiments in this area, and indicates that he has made continuing progress in creating an antigravity effect that partially shields the mass of objects placed above the rotating disks.
Dr. Podkletnov also describes his “force beam generator” experiment in detail, and provides insights into improvements that he’s made over the last decade to increase the force produced by this experimental gravity-beam. The force beam is generated by passing a high-voltage discharge from a Marx-generator through a YBCO emitter suspended in a magnetic field, and Podkletnov has described it as being powerful enough to knock over objects in the lab, as well as capable of being tuned by even punch holes in solid materials.
Podkletnov recently published a peer-review paper on the force beam experiment entitled “Study of Light Interaction with Gravity Impulses and Measurements of the Speed of Gravity Impulses” along with co-author Dr. Giovanni Modanese, and describes the findings of his study, which involved measuring the speed of the force-beam using two separate, but cross-correlated measurement techniques. After careful testing, Podkletnov has found the speed of the antigravity impulse to be approximately 64 times the speed of light (64c), which he indicates does not conflict with modern interpretations of Relativity Theory.
In addition, Podkletnov describes an antigravity effect generated by rotating magnetic fields that requires no superconductors to be generated, and suggests that it may provide an economical tool for future space & energy research.