“I am the lead developer developing the next generation of propellant-less propulsion devices based on the interaction of the electric fields from charged isolated elements in relative motion. Electric field intensities change when they are viewed from different inertial frames of references due to the effect of Lorentz contraction of the electric charges.
These changes in the electric field intensities are the basis for the magnetic field when an electric current is flowing in a conductor. When these same charges are electrically isolated from each other and ground, these same charges have electric field changes that can now be different depending on the inertial reference frame that they are observed from. These differences can now be geometrically amplified by the charge holding elements to allow charges in relative motion to observe different electric field interactions.
The Static Displacement Field Drive uses these same electric field differences from electrically isolated charged physical elements in relative motion to create different relativistic electric fields that we use to create thrust from the device. We are able to create and amplify these different relativistic electric fields by using physically connected charged elements, with different microscopic geometries, in relative motion, to create thrust that a spacecraft can use to propel it self without propellant.”
Can I break 1000 Likes by sharing bad news? I was skeptical of Banduric’s claims, so…last night, I asked Dr. Eric Davis what he thought: “Banduric is a liar on par with Burisch, Lazar, Fouche, and (Michael) Moran. I’ve already told his story in other chat groups because I met him at the 2021 JANNAF virtual meeting. No REAL UAP WUSAP personnel would ever come out and say one single word about their work because of the counterintelligence investigation, polygraph, prosecution, and conviction for violating the relevant national security laws and regulations. Those people are held up to much higher security scrutiny than guys with TS//SCI.” -Dr. Eric Davis
“Join an extraordinary panel of experts in aerospace, energy, and ultra-advanced technologies as they explore the absolute outer bounds of physics and engineering.
This groundbreaking discussion, co-hosted by Anna Brady-Estevez, Dr. Hal Puthoff, Larry Forsley, and Dyan Finkhousen, convenes the world’s leading researchers and innovators to examine extended electrodynamics, lattice confinement fusion, zero-point energy, and advanced propulsion and discusses the implications for the future of technology and space exploration.”
So, I’m the CEO of Field Propulsion Technologies. My background is in electrical engineering and mathematics, and 40 years ago, I was involved in a company, as part owner, that used to do reverse engineering. One of the things that came out of there was some of the NGOs that were trying to reverse-engineer advanced technologies pinged us to look at some of the stuff they had. That got me really curious because this stuff was definitely way more advanced than what we actually had. One of the things that happened is I ended up getting pulled into classified programs, and there, one of the things I wanted to look at was to see if the US government was actually using these technologies. It turned out that my conclusion was the US government was not. From there, I ended up working in a number of different companies. I had a project with DARPA for a while, and what we were trying to do was explore some of the things we observed, such as longitudinal forces inside composite conductors. These composite conductors weren’t actually conductors; they were something in between a conductor and an insulator and were usually very complex structures. Some of the things we explored involved using very small particles that were closely spaced. When an accelerated charge moved from particle to particle, we could generate an external or very large force. That was similar to what Ankar is working on; he’s seen the same effect when charges accelerate over a very short distance, generating external force. Our application that we pitched to the NSF, which we worked on with Hannah, was that we could probably use these forces for propulsion. In our case, we’re not using a large capacitor disc but rather very small nanoparticles. Then, the charges accelerate inside the particles and tunnel to the next particle. We are now under Phase Two. Some other materials we looked at had strange properties, similar to what Hal is doing. If some of these materials, built similarly, were set up not as long thin antennas but as cylinders, they could provide a significant amount of area. In electromagnetics, something called “gauges” indicates there’s no radiation coming out of the ends of an antenna. In our case, we’re pretty sure—based on some experiments we conducted—that what comes out of the ends of an antenna isn’t absolutely nothing or just potentials. If you had an antenna of the right length, you could actually see an electric field associated with these potentials. Instead of using an electromagnetic squid to detect these potentials, we could follow this potential using an electric field meter. This observation came out of work with these NGOs. Near some of these crafts, electronics would always shut down, and measurements indicated there was an electric field associated with these types of radiation. That’s where my work has gone today. We’ve talked to the Air Force, and we think we could replicate these types of effects. One key observation is that some kind of radiation does come out of the ends of an antenna, which we suspect is longitudinal radiation. Having an electric field and an oscillating scalar potential implies there might be another field out there we can’t currently measure. The Air Force wanted us to investigate this field, which seems similar to effects Chance observed. We assume this field might exert pressure on objects or cause measurable changes, such as in diffraction patterns. Much of our research confirms what others are working on. For the NSF, our objective is to use these new metamaterials to generate an external force. When we apply a DC current to these materials, we observe accelerated charges in the nanocomponents, producing large forces. These materials, though high-impedance, require relatively low currents but high voltages. Regarding Larry, some of the places I’ve been and the NGOs I worked with did get data similar to what you’re looking for. However, when I analyzed it, I didn’t see anything like nitrogen. The NGOs I worked with were trying to figure out how large crafts, often triangular, could disappear instantly. Observations suggested these crafts took the image of whatever was behind them and projected it in front, likely by bending light around the triangle. Our conclusion was they achieved this effect with significantly less energy than expected. Sometimes what they projected wasn’t exac…
