Requirement: Proof of Principle and Independent Test and Certification

Requirement: Proof of Principle and Independent Test and
Certification
My associates and I are proceeding as rapidly as possible toward full-up "proof-ofprinciple"
circuits for open release and certification or falsification by the scientific
community and engineers at large. Soon we also expect to release to other researchers
information on the kinds of new electrical phenomenology one meets in true overunity
electrical devices. These are not in the textbook, at least with respect to electrical power
systems. We give some indication of these phenomena below:
New Circuit Phenomena Must Be Mastered
One meets unusual electrical phenomena in attempting to perform overunity electrical
operations. For overunity, a priori one must "slip excess potential" through the circuit
essentially without losses. That is, one must deliberately pass massless displacement
currents through the circuit and at least through some of its components.
Solid-state switching components in particular exhibit unusual phenomena, to say the least,
when excess potential is introduced into and through all their internal components inside
modern semiconductors. An ordinary MOSFET, e.g., may have 25,000 separate internal
components. It is as if someone crammed the entire electronic parts store inside it. Simple
switches these semiconductors are not, when exposed to appreciable massless
displacement current.
When one "slips in" some pure potential, by SWZ decomposition one has also slipped in
some bidirectional EM pump waves. The nonlinear semiconductor materials will function
as phase conjugate mirrors when suitably pumped, including at non-optical frequencies.
Consequently pumped phase conjugate replicas, self-targeting, formation of quantum
potentials, and modular variable effects sometimes begin to evidence. We will address and
explain some of these effects in a future paper. For now, we simply state that they occur,
and there is a host of extra phenomenology the experimenter may encounter.
However, an iron rule for the experimenter is that, for odd circuit behavior, first exhaust all
"normal" causes before turning to the extraordinary causes. One will save oneself a great
deal of grief by applying this Occam's razor.
Also in deliberately utilizing displacement current, one is actually employing an expanded,
higher topology EM with additional degrees of freedom, similar to that pointed out by
Barrett. [Ref 18] Consequently one encounters a host of additional higher topology EM
phenomenology. In particular one encounters nonlinear optical (NLO) functioning of the
semiconductors at any and all frequencies, not just in optical bands.