Advantages of Photon Pulse Transmission
Every “bit” in a digital radio or satellite transmission requires multiple redundant waves of photons to encode it. Unfortunately, modulation causes extra transmission time and extra bandwidth. Photon particles transmit information much faster and with less bandwidth.
How our system differs:
We create pure photon pulses by accelerating free electrons on the antenna surface with single wavelength long direct current pulses. This requires the absence of resonance and no modulation but requires switching power at the zero crossing point of the sine wave.
We produce single sinewave pulses of about 1×1021 identical photons at ten watts of power. These are detected as separate photon pulses by a receiver made up of a non-resonant antenna coupled to linear amplifiers with minimum resonance filtering and a zero crossing detector to detect each sine wave captured by the antenna. Alternative techniques such as subtraction of harmonics in the transmitter and selection of different sized received pulses can replace functions of resonant circuits.
Transmitter Schematic
