Patent Number: 056075197
Section: claims

1. A photon and/or electron generating power cell comprising; (a) a stainless steel and chrome, high pressure container;  (b) a lining of photo-voltaic elements on the inside of said container;  (c) an ionizable material in said container;  (d) at least one ionizing radiation energy source in said container and a lead vault surrounding the high pressure container. 2. A photon and/or electron generating power cell as in claim 1, wherein; the distance between the protons and the electrons of the ionizable material is reduced through compression to increase the number of electrons absorbing energy from the ionizing radiation energy source. 3. A photon and/or electron generating power cell as in claim 1, where-in; the photo-voltaic elements area are configured as a plurality of vanes with PN junction elements on both sides, and extending into the ionizable material. 4. A photon and/or electron generating power cell as in claim 1, including a means to insert or withdraw the at least one ionizing radiation source from the immediate proximity of the ionizable material to either start or stop the ionization process. 5. A photon and/or electron generating power cell as in claim 1, wherein; a sleeve or tubing of the same material as the pressure container is welded into the upper half of this container, permitting the ionizable material to remain intact when the at least one ionizing radiation source needs attention. 6. A photon and/or electron generating power cell as in claim 1, where-in; heavier than air argon gas is maintained around explosion-proof reversible electric motors used to withdraw the at least one radiation energy source, to reduce the likelihood of combustion and/or corrosion; and heavier than air argon gas is maintained between the high pressure container and the lead vault it operates in, to reduce corrosion and the possibility of combustion and in the event the ionizable material becomes a prescence, purge it from the vault. 7. A photon and/or electron generating power cell as in claim 1, where-in the photo-voltaic elements are configured to form a relatively smooth surface lining on the inside surface of the high pressure container.