Patent Number: 054401879
Section: claims

1. An electric battery comprising: (a) a nuclear source of relatively high energy radiation fluence;  (b) a semiconductor junction characterized by a curve for said fluence relating minority carrier diffusion length and a damage constant and;  (c) an enclosure having a sufficiently low thermal impedance for dissipation of sufficient heat from the nuclear source to permit predetermined degradation of said minority carrier diffusion length initially and predetermined maintenance of said minority carrier diffusion length thereafter;  (d) said nuclear source being a radionuclide selected from the class consisting of alpha, gamma and beta emitters;  (e) said curve being substantially logarithmic.  (a) a stack of power cells including radionuclide emitter strata and voltaic junction strata;  (b) a semiconductor junction characterized by a curve for said fluence relating minority carrier diffusion length and a damage constant and;  (c) an enclosure having a sufficiently low thermal impedance for dissipation of sufficient heat from the nuclear source to permit predetermined degradation of said minority carrier diffusion length initially and predetermined maintenance of said minority carrier diffusion length thereafter;  (d) said nuclear source being a radionuclide selected from the class consisting of alpha, gamma and beta emitters;  (e) said curve being substantially logarithmic.  (f) said semiconductor junction strata being characterized at their opposite surfaces by p-regions and n-regions, positive conductor terminals being operatively connected to said p-regions, negative conductor terminals being operatively connected to said n-regions;  (g) said positive conductor terminals and said negative conductor terminals being accessible externally of said thermal impedance enclosure;  (h) said semiconductor junction being characterized by radiation semiconductor threshold;  (i) said nuclear source being a radionuclide selected from the class consisting of alpha, beta, and gamma emitters;  (j) said nuclear source being a radionuclide having a relatively high energy above said radiation damage threshold;  (k) said normal operating temperature within said thermal impedance enclosure is being less than as said predetermined annealing temperature. 2. The electric battery of claim 1 wherein said semiconductor junction is characterized by an annealing temperature and an operating temperature lower than said annealing temperature. 3. The electric battery of claim 1 wherein said semiconductor junction includes as its characteristic ingredient a member of the class consisting of cadmium telluride, indium phosphide, silicon carbide and synthetic diamond. 4. The electric battery of claim 1 wherein the normal operating temperature within said thermal impedance enclosure is no greater than 40.degree. C. 5. The electric battery of claim 1 wherein said semiconductor-junction is a stratum, one surface of which is characterized by a p-dopant and the other surface of which is characterized by an n-dopant. 6. The electric battery of claim 5 wherein said p-dopant is selected from the class consisting of zinc and cadmium, and said n-dopant is selected from the class consisting of silicon and sulfur. 7. The electric battery of claim 1 wherein said semiconductor junction contains indium phosphide. 8. An electric battery comprising: 9. The electric battery of claim 8, wherein said nuclear source is a an alpha emitter. 10. The electric battery of claim 8 wherein said nuclear source is a beta emitter. 11. The electric battery of claim 8 wherein said source is a gamma emitter. 12. The electric battery of claim 8 wherein said semiconductor junction includes as its characteristic ingredient a member of the class consisting of cadmium PG,24 telluride, indium phosphide, silicon carbide and synthetic diamond. 13. The electric battery of claim 8 wherein the normal operating temperature within said thermal impedance enclosure is no greater than 40.degree. C. 14. The electric battery of claim 8 wherein said semiconductor strata have opposed faces characterized by a p-dopant and an n-dopant. 15. The electric battery of claim 15 wherein said said p-dopant is selected from the class consisting of zinc and cadmium, and said n-dopant is selected from the class consisting of silicon and sulfur. 16. The electric battery of claim 8 wherein said semiconductor junction contains indium phosphide as its characteristic ingredient.