초록 ▼

A chamber or series of chambers is formed from layers of nested shells and used to manipulate a work product within the chambers. The shells are formed from highly ordered material structures, such as superconductors and metamaterials, and the work product is manipulated using energy that is directe

A chamber or series of chambers is formed from layers of nested shells and used to manipulate a work product within the chambers. The shells are formed from highly ordered material structures, such as superconductors and metamaterials, and the work product is manipulated using energy that is directed from the outside of the chamber, through the nested shells and into the chamber. The nested shells have an open position and a closed position or have a bridge through which a working material can be passed from one set of nested shells to another set of nested shells. The superconducting shells can be type-1 or type-2, and the metamaterial shells can include any combination of a frequency agile metamaterial, a split ring resonator, an artificial structure of a wire medium, a unit cell of an artificial magnetic metamaterial, metamaterial superlattices and any combination thereof, or other highly ordered composite metamaterials.

대표청구항 ▼

1. A chamber for altering strong force bonds in a work product, comprising: an electromagnetic shield positioned around the work product, wherein said electromagnetic shield is substantially impervious to electromagnetic radiation, electrical fields and magnetic fields;a plurality of nested shells s

1. A chamber for altering strong force bonds in a work product, comprising: an electromagnetic shield positioned around the work product, wherein said electromagnetic shield is substantially impervious to electromagnetic radiation, electrical fields and magnetic fields;a plurality of nested shells surrounding the work product, wherein said shells are selected from the group of materials consisting of superconductors, metamaterials and a combination thereof; anda sound perturbation system in operative communication with the work product inside said shells. 2. The chamber set forth in claim 1, wherein said nested shells have an open position and a closed position. 3. The chamber set forth in claim 2, wherein said nested shells are comprised of a pair of interconnected hemispheres and wherein at least one of said pair of interconnected hemispheres.overlaps the other of said pair of interconnected hemispheres and wherein said flange provides a pressure seal. 4. The chamber set forth in claim 2, wherein said nested shells are comprised of a plurality of interconnected, overlapping walls. 5. The chamber set forth in claim 1, wherein said metamaterial is selected from the group of highly ordered composite materials consisting of a frequency agile metamaterial, a split ring resonator, an artificial structure of a wire medium, a unit cell of an artificial magnetic metamaterial, metamaterial superlattices and any combination thereof. 6. The chamber set forth in claim 1, further comprising a series of nested shells and a bridge between said series of nested shells, wherein said bridge is selected from the group of materials consisting of superconductors, metamaterials and a combination thereof. 7. The chamber set forth in claim 1, further comprising a reservoir containing a coolant in contact with at least one side of said superconductors. 8. A chamber for altering strong force bonds in a work product, comprising: a plurality of nested shells surrounding the work product and having an open position anda closed position, wherein said shells are comprised of a highly ordered material structure selected from the group consisting of superconductors, metamaterials and any combination thereof;a base supporting said nested shells; anda means for transferring energy from outside of the chamber into the chamber through said nested shells. 9. The chamber set forth in claim 8, wherein said metamaterials have negative refraction indexes corresponding to electromagnetic waveforms or groups of electromagnetic waveforms. 10. The chamber set forth in claim 8, further comprising a bridge between said nested shells and another plurality of nested shells. 11. The chamber set forth in claim 8, wherein said energy transferring means includes a sound perturbation system surrounding said nested shells which is in operative communication with the work product inside said nested shells. 12. The chamber set forth in claim 11 wherein said nested shells are metamaterial shells. 13. The chamber set forth in claim 8, wherein said energy transferring means is comprised of an encapsulated electrical circuit extending through said nested shells. 14. The chamber set forth in claim 13 wherein said nested shells are metamaterial shells. 15. The chamber set forth in claim 8, further comprising an electromagnetic shield positioned around the work product, wherein said electromagnetic shield is substantially impervious to electromagnetic radiation, electrical fields and magnetic fields. 16. A chamber for altering strong force bonds in a work product, comprising: a plurality of shells surrounding the work product, at an interior region of the shells wherein said shells are selected from the group of materials consisting of superconductors, metamaterials and a combination thereof, wherein said shells comprise a first shell section and a second shell section with an overlapping section at an interconnection between said first shell section and second shell section and said shells have an open position wherein said interior region is accessible from a space exterior to said shells and a closed position wherein said interior region is inaccessible from a space exterior to said shells wherein said first shell section is moveable at said interconnection relative to said second shell section and wherein said first shell section and said second shell section overlap at said interconnection when said shells are in said closed position and do not overlap at said unterconnection when said shells are in said open position; anda base on which said plurality of shells is mounted in said space exterior to said shells. 17. The chamber set forth in claim 16, wherein said chamber comprises an electromagnetic shield comprising a superconducting shell. 18. The chamber set forth in claim 17, further comprising a reservoir containing a coolant in contact with at least one side of said superconducting shell. 19. The chamber set forth in claim 16, further comprising a means for transferring energy from outside of the chamber into the chamber through said plurality of shells. 20. The chamber set forth in claim 19 wherein said plurality of shells comprises nested metamaterial shells. 21. The chamber set forth in claim 16, further comprising a sound perturbation system in operative communication with the work product inside said shells. 22. The chamber set forth in claim 16 wherein said plurality of shell comprises nested metamaterial shells.