New Energy for an Ultra-modern Vietnam

Part 3: The Science

Section B: Techniques

June 2014

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Now that you’ve learned about 12 cutting-edge ideas in New Energy science, it’s time for some review

Let’s begin by talking about the various ways we can extract Zero Point Energy

from the quantum vacuum

We’ll then move on to discuss the implications of New Energy science

and, finally for this section, we’ll survey some of the applications which you can develop with this knowledge.

Ways to Extract ZPE

• Basic Principles

• Environment

• Techniques

• Materials

Basic Principles of ZPE Extraction

• The most important thing to keep in mind about designing ZPE systems is that ZPE is already present in your system in practically unlimited amounts

Your job as a systems designer is to cause the Zero Point Field to self-organize

• We call this “achieving quantum coherence”

Image: Lee O’Riordan

Abruptly drive the system far from thermodynamic equilibrium to initiate

quantum coherence

Your circuit is a way to conduct this ZPE which you have now attracted and cohered

Once you’ve initiated a “wind current” of electromagnetic energy through your circuit based

on quantum coherence, don’t kill your dipole!

Remember that Maxwell’s original equations absolutely allow you to pull energy from the

vacuum in order to create a seemingly overunity system

Don’t pay any attention to the naysayers who tell you that a system with COP>1.0 is impossible!

Next in this section, we will be looking at ways to make the “wind current” of energy from the

vacuum blow even more strongly

In many (if not most) ZPE systems, we are dealing with getting molecules, atoms, and

subatomic particles to break apart and rearrange themselves

We generally want to get them to re-form into highly energetic states

• Many times, these states are associated with specific crystalline geometries

Part of this re-arranging of energies at the subatomic level involves supercharging atoms

so that their electrons jump orbits

This process can even be taken so far as to strip electrons from their nuclei entirely

“Shaking molecules/atoms apart” is one way to think about what you are doing in ZPE systems

Now that we’ve got a basic approach to extracting ZPE, let’s talk about the

environment in which our systems operate

Generally speaking, colder

temperatures seem to aid ZPE extraction

Many ZPE systems also work better in a vacuum

These conditions (vacuum, cold temp) make ZPE-based systems for space

propulsion especially attractive

Some ZPE system designers have found that keeping different parts of the system at different

temperatures creates beneficial effects

• Just as with magnetic forces in a ZPE system, “asymmetry” seems to be one of the main ingredients for success

Also, keep in mind the effect of the outer space environment on your system

• This includes Earth’s magnetic fields

• It also includes torsion fields that are affected by the rotation of the other planets in the Solar System, solar/lunar eclipses, etc.

As a result, a system that works in your lab in Vietnam might need adjustment to work

in Mexico

Now that we’ve looked at some of the

environmental factors affecting ZPE systems,

let’s look at some specific ways to achieve

quantum coherence