GCT Communications research concentrates on utilizing the information transfer properties of the Zero Point Field as a means and medium of communication.

   During the development phase of the propulsion system it was observed that two separate plasma powered prototypes exhibited identical and simultaneous plasma field discrepancies when operated simultaneously. These simultaneous resonance couplings persisted regardless of the shielding used to separate the two devices, including Faraday cages.

   We believe that it might be possible to build custom plasma field units that are capable of transmitting and receiving messages by resonance-tuning them through the ZPF. In our view, the exchange of information between the devices is accomplished through the medium of the Zero Point Field, and is not dependent in any way on the exchange of conventional electromagnetic energy.

   Real time exchange of information over extreme distances can be accomplished. For example, communication with a spacecraft orbiting Mars can be an interactive experience, with no speed-of-light time lag between transmission and reception.