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AG Research

Papers and documents on Antigravity, BPP, space, and physics related topics.

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Jessup's The Case for the UFO (Annotated)

The Varo Edition of Jessup's classic "The Case for the UFO" contains highlighted text and annotations by Carlos Allende, the sailor responsible for as the originator of the Philadelphia Experiment story. Based on handwriting analysis, it is believed that at least most of the initial annotations were made by Allende as a code for passing along information, with further annotations ascribed to high-ranking Air Force officers...

Teleportation Using EVOs

Although this basic transport process has been known and used by the author for many years, by very selective loading of specific nucleons into EVOs and projecting them controllably, the only proof of materials transported, other than electrons comprising the EVO itself, are isolated nucleons. The efficiency of the process is approximately 1 nucleon per femto Joule of input power...

Controllable Graviton-Flux

This document contains the lecture notes for Bernd Binders "Towards a Self-Consistent and Controllable Graviton Flux", as presented at STAIF 2007. Potential applications as described by Binder could be in solid state superconductors (exotic materials) able to host high-dimensional network flux topologies with proper scaling and dynamics...

FTL Travel in Hyperspace

This document contains the lecture notes for Professor Giorgio Fontana's "Hyperspace for Space Travel", which postulates that localized strong gravitational field, which creates a propagation speed discontinuity in Hyperspace, may allow travel to different local universes or Faster Than Light (FTL) travel within the same local universe.

Superluminal Quantum Model Overview

This document provides an overview of Dr. Richard Gauthier's "Superluminal Quantum Models of the Electron and the Photon", as presented at STAIF 2007. According to the superluminal quantum models, the electron and the photon are each composed of one point-like quantum. The electron's quantum moves superluminally 57% of the time and subluminally 43% of the time in a closed helical trajectory...

Exploring Gravity and Grav Wave Dynamics II

The need for a new gravity model may explain anomalous behavior exhibited by several recent experiments described in Part I. Although Newtonian gravity is adequate for predicting the motion of celestial bodies, these bodies move at slow speeds compared to relativistic conditions. Moreover, anomalous behavior as well as the existence of gravitational waves limit and invalidate the use of Newtonian gravity.

The Schwarzschild Metric Violates Weak Equivalence

It is shown that for subluminal observers rotating with constant angular velocity under the Schwarzschild metric at the radius in which light orbits about the gravitating mass located at the origin, the locally-measured tangential speed of (orbital) light depends on direction and angular velocity of the observer...

Electrostatic 512kV Rotator-Oscillator Propulsion System

The purpose of this paper is to show that by replacing the standard General Relativity (GR) gravity metric term with goo with a new one E&M goo in the Kerr metric you obtain some interesting propulsion effects. To prove that this replacement is plausible however one has to first show how it fits into the context of the equivalence principle and conventional quantum mechanics; here in the form of a new Dirac equation.

Open-Cavity Microwave Beam HFGW Detector

We propose a new device for detecting high-frequency gravitational waves (HFGWs) in the GHz band, which consists of a high-quality-factor open microwave cavity and a Gaussian beam (GB) passing through a static magnetic field in free space. Essentially this effect is an inverse Gertsenshtein effect in which HFGWs are converted into electromagnetic (EM) waves when passing through a static magnetic field...

CasimirSim - Nanotech Design Software

CasimirSim is designed as a tool for scientists and engineers to compute Casimir force for nanotechnology development, therefore providing a wide variety of options for calculations. It shall open the doors for the analysis of expected Casimir forces in complex systems at design time, and help to approach new frontiers in nanotechnology.

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