The P2 wave


Transmitting P2 waves, which are essentially 'Nothing', is actually a relatively straightforward process. To transmit Nothing we first need to create Nothing. So, let's delve into the creation of P2 waves, which are Nothing until detected.  If you recall, the P2 Remnant Wave is what remains after a complex wave collapses. This is what is demonstrated by the single slit experiment, which reveals that P2 waves are essentially the cost of decision-making. The P2 Remnant wave, which 'escapes' from this decision-making process, represents the probability of a process not collapsing.  By emulating this process and introducing our own information into the system as a modulated signal, we can create our own custom P2 waves. This procedure is compatible with both matter waves and electromagnetic (EM) waves.

Creating a P2 wave is somewhat similar to how an AM transmitter generates a usable EM signal. An AM transmitter takes a 'useless' constant amplitude electromagnetic signal, and combines it with a lower frequency, varying-amplitude signal - voice, music, or whatever - to generate varying amplitude sidebands. These EM waves propagate through space to your receiver, which discards the now useless parts of the signal, and presents the decoded, useful part to your ears. This process, which was 'Nothing' over a century ago, has now become 'Something' - a multi trillion dollar 'Something' that describes the entire commercial and non-commercial broadcasting industry, including radio and television. I find it amusing that during the infancy of radio there were many respected scientists that said in the long run radio would amount to Nothing :-)

The process for generating P2 waves is similar, but not identical. We start by creating a high frequency analog sine wave, then modulate it with your chosen information - Nirvana, Black Sabbath, The Matrix, whatever. At this point an AM radio transmitter and a P2 generator diverge. The radio sends this information directly out the antenna (Ariel for those of you across the pond) in the form of self-propagating electromagnetic (complex) waves, and that's it.  However, with the P2 'transmitter', this complex information flow must be deconstructed. In simple terms the signal must flow into a 'decision-making-circuit'. This is where the P2 wave is created under user-controlled conditions. The circuit, much like the slits in an n-slit experiment, will collapse the complex wave. The real part of the wave is left behind to warm the transmitter. The P2 wave, now 'modulated and imaginary', becomes part of the universe, ready to be detected by the 'receiver', wherever it is.