Self-Recharging Electric Vehicles [SREV]

The EV project's mission is to design, develop, engineer, prototype, test and roll-out a pre-production prototype of a transportation platform capable of converting ambient energy sources into usable electrical power efficiently enough to power a 1,500 pound vehicle at highway speeds for unlimited distances without the combustion of any kind of fuel or emission of any exhaust.

Collective Ion Accelerators

The objective of this project is to develop a low energy nuclear particle accelerator technology capable of delivering a continuous proton stream at the rate of 10¹⁵ neutrons per cm² per second. Anticipated uses include materials engineering, remediation of radioactive emissions in spent nuclear fuels, and other important commercial and scientific uses.

Torsion Field Communications Systems

This project's objective is to build a proof-of-concept demonstration prototype capable of modulating data into and out of non-local/non-linear fields across virtually infinite distances without attenuation by any known materials or field effects.

Casimir Generators

Cedric Casimir correctly predicted the phenomenon which bears his name in 1948. The interposition of materials with highly varying dielectric properties has been shown to produce significant ionization and electromagnetic field propagation in controlled studies. This project seeks to design-engineer, prototype and test a number of selected applications of Casimir's technologies for electrical power generation, inertial mass reduction and other related applications.

Schadeck Projects

Matthew Schadeck is a developer, integrator and inventor of numerous leading edge technologies believed to provide substantial incubation, research and commercialization opportunities. NIT will sponsor, co-manage and support joint development initiatives to incubate, applications-engineer and commercialize a number of his selected inventions and technologies.