The oppositely directed 511-KeV photons LEAVING AN INJECTED PATIENT in a PETScanner interact with adjacent rings of photoluminescent detectors that enable a PETscanner to create a 4-D image of the positron-electron annihilation reactions by geometrically back-projecting the path of the oppositely directed and received 511 KeV photons obtained by this ring of detectors backward into images of the patient. The Physics of Positrons, once produced, is similar to that seen in PET scanners. The positrons thusly produced will travel only a few angstroms from the sphere in the pressurized containment before similarly contacting an electron, whereupon the position and its contact electron will self-annihilate, and thereby emit two OPPOSITELY DIRECTED 511-KeV GAMMA PHOTONS. The alpha particles thus emmited will quickly combine exothermically with electrons to create helium molecules and heat. When a radioactive sphere is positively charged to 1.022 MeV, the quarks in the neutrons and protons will adsorb 511 KeV electrons into the wire that is charging the sphere with positive potential, as the sphere emits 511 KeV positrons (also alpha particles). Positrons and Electrons each have an Einsteinien mass-energy co-efficient of 511 KeV.
#Antimatter reactor series#
This (just greater than one million volt, voltage boost) can easily be accomplished in a correctly equipped laboratory using a Cockroft-Walton Voltage Multiplier, or by Series Connection of VanDerGraff generators. This mode is only for the desperate.The Present Invention Breaks New Ground in Physics, as it is an Apparatus that Will Demonstrate that Positrons can be generated quite easily in Real Time, simply by Electrically Charging a Sphere of Radioactive Fuel (Pu-239, Pu-238, U-238, U-235, or Th-232) to Positive 1.022 MeV. Shorts are common, starting fires and rapidly heating the room. Providing 30,000W of energy, Overdrive IV can rapidly fill the Capacitors, but is highly unstable, rapidly overheating and emitting significant qualities of radioactive ash. It is ill advised to operate here for long. The reactor begins to emit dangerous radiation, and as instability increases, radioactive ash will be emitted into the room. Providing 22,500W of energy, Overdrive III is a somewhat dangerous setting. While not intended for prolonged use, it is safe to occasionally switch to in times of heavy power drain. Providing 15,000W of energy, Overdrive II begins to slowly build up instability, risking shorts and radiation leaks if the core overheats without enough heat capacity.
#Antimatter reactor full#
The reactor core can stabilize, eliminating volatile buildup, and a full reservoir of 2500 units of fuel will last 4.2 Years. Ship Reactors can hold 2500 units of fuel (25 Canisters.)Ĭonsidered normal operating levels, Overdrive I produces 7,500W of power, and a low level of heat. Uranium Fuel Pods are made at a Machining Table from 1 Steel and 5 Uranium, which yields 100 units worth of fuel. To clear instability, let the reactor rest at its lowest level or switch it off.Įnsure your ship has adequate Heat Sinks and Radiators to handle the extreme heat buildup these devices produce.
In addition to the heat, there is a risk that these reactors may enter meltdown when damaged and driven too hard. Ships need power, and while Solar Panels can provide some of that, Stellarator Fission Engines are the fastest way to fill the massive Capacitors you'll need to survive prolonged engagements with enemy ships and operate the interstellar Johnson-Tanaka Drive.įueled with refined Uranium via Uranium Fuel Pods, these are highly volatile machines, capable of generating significant power and an equally significant amount of heat and radioactive debris.
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