Electron Extraction Process

Exposing the displaced and moving combustible gas atoms (exiting waterbath and passing through
Gas Resonant Cavity (T), Figure (1-17) as to Figure (1-18) to another or separate pulsating laser energy-
source (V) at higher voltage levels (E3/E4) causes more electrons to be "pulled away" or "dislodged"
from the gas atoms, as illustrated in Figure (1-15) as to Figure (1-8).
The absorbed Laser Energy "forces" or "deflects" the electrons away from the gas atom nucleus
during voltage-pulse Off-Time. The recurring positive voltage-pulse (k) attracts (qq') the liberated
negative electrically charged electrons to positive voltage zone (E3). While, at the same time, the
pulsating negative electrical voltage potential (E4) attracts (qq') the positive electrical charged nucleus.
The Positive Electrical Voltage Field (E3) and Negative Electrical Voltage Fields (E4) are
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Stanley A. Meyer
1-9RE: Hydrogen Fracturing Process
Memo WFC 420
triggered "Simultaneously" during the same duty-pulse.
Electron Extraction Circuit (BB) of Figure (1-14) removes. captures. and consumes the
"dislodged" electrons (from the gas atoms) to cause the gas atoms to go into and reach "Critical-
State", forming highly energized combustible gas atoms having missing electrons. Resistive values
(R4. R6, R7, and dialectic constant of gas Rg) and isolated electrical ground (W) prevents "electron-
flow" or "electron deflection" from occurring within circuit (BB) during pulsing operations (at
resonant frequency) and. therefore, keeps the gas atoms in critical-state by "NOT" allowing electron
replacement to occur or take place between the moving gas atoms.
The "dislodged" negative charged electrons are "destroyed" or "consumed" in the form of "heat"
when Amp Consuming Devise (S) (such as a light bulb) is positive electrically energized during
alternate pulsing operations. Laser activated or laser primed gas ions repels the "dislodged" electrons
being consumed. as illustrated in Figure (1-8) as to Figure (1-20). The Electron Extraction Process
(BB) is, hereinafter, called "The Hydrogen Gas Gun" and is placed on top of a Resonant Cavity
Assembly, as illustrated in Figure (1-17) as to Figure (1-18).