Capacitor Open Field Gain

Good day, everyone! Just a quick follow-up on some recent personal experiments, tied to my previous video uploads—for those of you who’ve been following along or find this kind of work intriguing. In this update, I present both basic and more advanced circuit setups. Near the end, I demonstrate a system that appears to be operating in the range of approximately COP 200%—an open-loop, capacitive system showing promising performance. I also introduce a new type of asymmetrical dielectric capacitor I built about a week ago. This design deviates from the usual alternative tech community approach, where asymmetry is often focused solely on the plates—primarily in the context of antigravity effects. Instead, I focused on dielectric asymmetry for energetic properties. This particular build was optimized for high ultra-frequency broadband response, essentially using the ambient environment as the "AC input." instead of direct tap to the mains etc,,,The structure is simple—built around something as basic as a paper towel tube circular diameter gives more broadband frequency resonant response. —but the results are compelling. It outputs over 1.5V DC with no load, and maintains around 1.4V DC under load (such as powering a basic LCD clock module). To be completely honest—it’s outperforming my earlier PEG cells, With complicated mixtures of solid state and semi solid state(gel) electrolytes. which I’ve been a big fan of. But this unit shows a more stable and consistent output. In many ways, it behaves more like John Hutchison’s Barium Titanate capacitor cylinders—essentially passive devices with built-in rectification and inherent DC storage capabilities. This tube is like a capacitive rectenna without a "rectifier" all field dynamics. Like the capacitor demo here.