Technical Guidelines for Slicing Reactors

Technical Guide Lines for Slicing Reactors
Phase 1
Exploiting Transmutation of Matter via Destabilization of the Atom’s Electron Subatomic Particle Stream

Major Advantages

Elimination of large power generating infrastructures
No waste products
Mobility
No power transfer components between forms of energy
No moving parts
No shielding
Efficient
Controlled heat generation
No dependency on primary magnetic fields
Uses any fuel source composed of a uniform element
The reactor size can be reduced a few cubic yards within the near future
Local systems make high voltage transmission lines obsolete
Earth Friendly
Mankind wins
Wind turbines and solar panels scraped
No nuclear plants or radioactive byproducts
Land for bio fuels converted to food production or open space
Open pit and underground coal mines no longer needed
Step-up and down transformers sub stations removed
Almost an unlimited source of power
There will always be a conventional energy commerce for the immediate future as it use is phased out, but now its use will be wise
Exceeds all Green organization requirements

Major By-Process

Transmutation of radioactive waste to a bio-safe inert element

Disadvantages

None, as a need for new energy sources has already tip the balance away from greed and resistance to find a real solution. Not one that finds a new source of oil that has only been held back for release when the market conditions are right. Not a source that costs more than conventional supplies, but excused away as a viable alternative as a few profit on a need of hope. A new source is needed outside of conventional theories, the time is now. The need has always been there and current solutions will only push this same problem back a few years, only to return the next time with a greater needs and consequences. Courage is needed to take the chance now.

There are several new aspects to be considered when designing the reaction chamber.

Subatomic particle flow feedback: Electron stream rippling as a product of backwash

Definition: Electron stream rippling is a resultant of an applied action to push the electron stream flow towards the designated mass. As noted in the paper, particle motion, natural flow, amplitude of wave like motion and the distance between the peaks or frequencies is a balance or compromise between the ability to produce forward in conjunction of maintaining amplitude. When an outside action or force is applied, there is a backwash superimposing a ripple in the opposite direction to the flow. The resultant becomes unpredictable when a peak in reflective force occurs due to saturation. The point where the introduced electron flow to the mass exceeds its carrying capacity and is reflected back. What was once a coherent electron particle flow with a predictable wave format is altered by back flow wave creating peaks and troughs due the interaction of the forward moving modified electron neutral subatomic particle flow and the backwash, creating ripples.
   A uninterrupted forward subatomic particle stream encounters subtle eddies and reflection points as a backwash due to periodic flow congestion points around the fuel source. Conventional wisdom would assume major barrier encountered would be the surface of the fuel element, but this not the case. The subatomic particle stream encounters little resistance due to mass associated with the elemental fuel source occupies a small percentage of actual space enclosed by the mass’ surface. Problems occur within the electron stream as neutral particles replace charged subatomic particles as a factor density draft evacuation. A process where the neutral charged subatomic are injected in a high density format allowing a naturally flow in to an establish electron stream taking advantage of low density areas temporarily left as the charged particles are drawn away. This exchange is uneven and is random as the compromise needs to be establish between the injection and ejection particles in conjunction with the carrying capacity of the elemental fuel which varies in relation to its decreasing mass per unit. As counter to allow electron neutral stream flow to return uniform particle flow density (removal of the constriction points that develop with interaction of the introduced neutral components and the removal of the charged electron subatomic particles embedded as any new point in the stream has return to a uniform density). The chamber spherical in nature should be composed of an non conducting reflective surface where energy absorption approaches mankind’s definition of zero, which shall be refined to null absence of all or some aspect of energy in a related mass. Hyperbolic conical entry points shall be placed in six separate positions 2 align in a straight line about a common axis while all 6 points are separated from each other by 90 degrees. The injection stream will occupy 1 axis line reference and the other 2 collect the released energy. A controlled rotational sequential shift about the x, y and z axis for the injection stream will roll or shift about the 3 axis in relation to feedback stream flow build up all controlled by computer program to maximize flow efficiencies. As the ripple effect increase the stream shifts to a new axis of flow where forward motion density approaches that of a uniform density while pressure spikes are neutralized when encounter at a new 90 degree angle allowing the old path of flow return to come within a close reach of a null differential in particle flow density. This allows for the nucleus to break smoothly as stable format instead of pockets of various isotopes naturally breaking down now emitting subatomic particles in the form of radiation.

The most important concept to achieve success is control of the reaction in all aspects.

Break points

   The charged subatomic particle flow released when transmuting from element to another is vast, but it is control of this process that will yield success. There is a relational injection flow, which approaches a differential value of null of the particle flow providing order to the outflow of charged electron subatomic particles. Breakpoints are a sequence of release points for the atomic structure based upon the starting elemental charge versus total mass where the amount of neutral subatomic particles introduced into the nucleus. The reaction cascades through a series of releases until a stable format is reached. As replacement of the charged electron charged subatomic particle flow proceeds, initialization a of breakdown within the atomic structure of fuel element or isotope destabilizes the natural bonds related to the element. A bleeding of pulses of energy can surge in total release of release energy, as excess particles related to the proton, neutron and transmuting the host element to a new lower level. The break point is the determinate of the resultant transmuted element.

Control of Subatomic Particle By-Products

   The key here is recycling the subatomic particles associated with the released proton(s) and neutron(s) as the atom breaks down. A measured pulsed neutral injection stream related to specified breakpoint allows complete transmutation of the fuel element new elemental state where controlled subatomic particle decay is needed to achieve stability thus stray high energy radioactive particles are contained as a sub-process of the reaction.

If you maintain control of the injection flow and its breakdown of the electron subatomic particle stream the energy released will follow suit.

   To start, consider the injection point that projects and expands or constricts the electron subatomic particle flow via the hyperbolic conical portal attached the entry point of the spherical reaction chamber. Creation of a nozzle that can direct a variable stream averaging several atoms in diameter while focus and vector direction simultaneously controlled by computerized electronic monitor to compensate for flow variations.
   This control system will take advantage of particle movement and crowding or absence of to nudge directional changes, constriction, and expansion of the input stream without affecting its overall neutral charge. Neutral particle emitters consecutively ringed about the expanding hyperbolic entry cones can direct and concentrate the most subtle emitted particle flow, while allow the stream to remain true to its original format and lack of charge.
   The next task is a source of neutral electron stream components, harnessed from basic elemental sources. This is a 2 step process, first acquisition of electron subatomic particle stream components and segregation of the charged and neutral components. Extraction of an electron subatomic particle stream is available with present day technology, but experimentation is needed to find the element, which yields the largest quantity of neutral components as a factor of availability of the elemental fuel as a function of cost.
   Ionization by conventional means of the host element is required to strip the electron subatomic particle flow from the host nucleus. This will be the jump start of the modified process and the conventional theories present on Earth end here. As a electron subatomic particle stream is harnessed, the charged-neutral separation process is initiated. By subjecting a small differential field charge (the differential is a variance between the base charge, which approaches a value of null for the neutral subatomic particle flow and the applied surrounding field charge used to initiate separation) to the cross sectional area of passage of the injection stream, subtle subatomic electron particle separation occurs. A series of charged parallel rings where the electron subatomic stream is aligned through the centers allows the charged particles to migrate the outer shell of the tubular flow due to attraction while the neutral subatomic particles naturally migrate towards the center to escape the particle crowding experienced near the outer boundaries of the electron subatomic particle stream. A artificially created pressure void easily taps a flow of neutral particles at the center of flow. This particle stream then can be guided to the reactor subatomic stream injectors.
   Subatomic electron particle crowding as successive atomic structures breakdown within the reaction chamber will provide the basis for the flow of electron related charged particles far greater than present day conventional generators at efficiencies greater than 99% without the need of moving parts to drive the electron flow (electricity) or convert one form of energy to create another (present day power plants). Where particle pressure within the reaction chamber is used to maintain or drive the flow of mankind’s perception of electrical flow, which is balance by demand needed and the availability of new particles are regulated below the reactor containment burst point.

   Power storage or battery type components are not needed as energy builds in the reactor and is tapped as needed. Spikes are handled by temporary removal of electron subatomic particle flow as the incoming neutral stream is shunted. If one was to examine an operational atomic slicing reactor system to exploit its secrets, the stored electron subatomic particles that have built up under pressure responsible for charged electron component flow, would explode on a breach of the containment sphere, endangering all within the local proximity. Little is to be gained by the fragmented containment shell and much disappointment with the absence conventional moving parts.
   The new process takes advantage what is natural, reversing the process occurring within the Sun which has created the various elements. The initial element and resultant element is one of many steps in the total process. There is a burst of energy, releasing the excess electron subatomic particles no longer needed to support the positive related polarized charge undergoing the destabilization process within the nuclear core. Changes to the element is exhibited when it transmutes to the next lower stable elemental isotope. This is due to the charged electron stream particle evacuation as a function of pressure equalization. The goal is to allow an organized removal of the charged subatomic particles so that particles related to a null-charge can be exploited. Thus a new source of neutral related subatomic particle that can be recycled for the injection stream.
   The exit point has many critical factors to consider, as the element breaks down there needs a collection reservoir to absorb the subatomic electron related release outside of the applied charged field responsible for the breakdown of the electron subatomic particle flow, first. We address the neutral subatomic particle excess in the next revision. The reservoir not only establishes particle pressure flow, but dampen the newly introduced pulses for a more controlled flow.

Technical Problems:

If any nation of Earth has started research and reached the level of neutral sub atomic particle injection to a target host, one of the technical obstacles has been stabilizing the atomic nucleus so that the electron stream can stripped of its charge and the nucleus breaks down. Currently, the target mass atomic structure shifts about, thus deflecting the incoming stream. How can stability be achieved without maintaining a charged field, which would affect the emitted neutral subatomic particles?

Your research will now take a new direction, first you are going to modify the electron stream of selected atom so that it is more efficient to replace the charged sub atomic particles with the neutral stream. Second, stabilizing the atomic structure so the electron can be affected. It is the establishment of the process that needs to be solidified before modifications can be made so that all atoms are affected.

You are all aware with the process of exciting an what you call an electron to a new level and it in turn sheds that energy in somewhat of a coherent form as it drops back to the originating level. This concept is known to science and it this process we exploit as a step. The key is to emit a 360 degree positive charged micro burst field directed at the host matter. This charge moves part of the electron subatomic particle outside of its level creating a void, when the field retracts the electron sheds their added energy and falls back in place. It is where where you modify the process. By exciting the electron subatomic particle stream in micro bursts, there will be an equivalent alternating neutral subatomic pulse emitted again from strategically placed emitters about a 360 spherical field. The neutral particles once injected in a compression pulse will easily replace the charge excited sub atomic particles in the artificially maintained electron stream void, thus as the temporary induced charge grounds out, the related charged subatomic particles releases their energy and tries to return to their originating level with the position now filled with neutral subatomic particles. The electron stream sheds charged from the atomic structure. As this process continues the nucleus loses its equilibrium and thus breaks down to the next stable format shedding all excess particles and elementary hydrogen atoms quickly forms as a result of this process.

Work on this for now and there will be new instructions forth coming.

Energy independence changes the world from dependency to cooperation out of need, thus a disagreement of doctrines no longer is a driving force, what good is a set of principles that may inspire hate, and all religions are guilty of this, no exceptions just look at history, if the essentials of life are in short supply?

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