Dr. Eugene Podkletnov discusses gravity shielding effects in rotating superconductors and recent experiments with a gravity impulse generator. Podkletnov achieved notoriety when publishing on gravity shielding in 1996, when pipe smoke rising in a column above a rotating superconductor became the precipitating event that led him into detailed investigation of the gravity shielding effect. He describes the experimental elements of his research and hypothesizes on a number of models that may explain his findings. Read more

Dr. Martin Tajmar discusses gravitomagnetism in a theoretical model for the coupling of gravitational and magnetic fields within superconductors. He proposes that gravitomagnetism is a gravitational analogue to Lenz’s Law where angular acceleration on a superconductor is countered by a twisting tidal force generated by the gravitomagnetic frame-dragging effect. Tajmar is hoping to explain experimental frame-dragging effects in superconductors orders to magnitude greater than predicted by relativity. Read more

Dr. Eugene Podkletnov discusses an experimental gravity impulse generator claimed to produce beams of gravitational force capable of warping metals and punching holes through concrete walls. The gravity impulse generator utilizes high voltage electrical discharges from a Marx generator applied to a stationary superconducting target to create what Podkletnov describes as gravitational waves in a coherent, non-diverging beam that Podkletnov indicates is capable of exerting tremendous force on anything in the beam path. Read more

Mark Goldes is the founder and CEO of Room Temperature Superconductors, Inc., which has invested several million dollars in developing a process to produce a polymer-based superconductive material which possesses very high electrical conductivity and current carrying capacity without experiencing resistive heating at peak load capacity. Goldes discusses the company’s development process and ongoing efforts to refine the manufacturing process for the commercial production of superconductive wire. Read more