Patent Number: 
Section: claims

1. A device for storage of anti-matter comprising: an evacuable hollow body comprised of at least one inner shell adapted for generating in the hollow body a force field for permitting anti-matter to be kept within the hollow body without contact with the inner shell;  an opening into the hollow body through the shell for filling or emptying the body with anti-matter;  at least one moveable closure moveable into and out of the opening for selectively closing and opening the opening in the shell;  a second opening in the inner shell, the first-mentioned opening and the second opening being located at radially opposite regions of the inner shell;  a second closure, the first-mentioned closure and the second closure shaped for engaging in and closing the first and second openings and being operable for selectively opening and closing the first and second openings;  a rod extending through the geometric center of the of the hollow body on which the first and second closures are supported, and  the rod being movable for moving the closures together into and out of the first and second openings. 2. The device of  claim 1 , wherein an introduction channel comprises an claim 1 evacuable inner space bounded by channel walls and communicating into the hollow body,  the introduction channel and the evacuable inner space in the channel being set up for generating a force field directed so that the anti-matter can be kept in the inner region of the introduction channel without contacting the channel walls. 3. The device of  claim 2 , wherein: claim 2 the closure is so shaped, and is moveable so as to be received at least partially into the interior of the introduction channel; and  the closure is adapted such that movement thereof into the interior of the hollow body guides the anti-matter into the hollow body. 4. The device of  claim 3 , further comprising: claim 3 a second opening in the inner shell, the first-mentioned opening and the second opening being located at radially opposite regions of the inner shell;  a second closure, the first -mentioned closure and the second closure being shaped for engaging in and closing the first and second openings and being operable for selectively opening and closing the first and second openings; and  an entrance into the introduction channel for anti-matter, the first and second closure members being so spaced apart and the entrance being so placed in the channel that the first and second closures can bracket the sides of the entrance when in the channel and bound the inner space with anti-matter therein,  the closure and the channel being adapted to move anti-matter into the hollow body as the closing closures move to the hollow body. 5. The device of  claim 3 , further comprising a plurality of the openings and a respective plurality of the closures for the openings, a support structure for supporting the closures at a constant distance from one another and for moving the closures into and out of the introduction channel and openings in the shell. claim 3 6. A device for storage of anti-matter comprising: an evacuable hollow body including:  a confinement structure for anti-matter located within the hollow body, the confinement structure having an opening therein;  a passage into the hollow body positioned for communication with an interior portion of the confinement structure through the opening;  a closure moveable into and out of the opening for selectively blocking communication with the interior portion of the confinement structure;  a source of power operable to energize the confinement structure to generate a single type of inwardly directed force field that prevents anti-matter within the interior portion of the confinement structure from coming into contact therewith; and  wherein the confinement structure is a spherical capacitor and the source of power is operative to generate a controllable electrostatic field. 7. A device for storage of anti-matter comprising: an evacuable hollow body including:  a confinement structure for anti-matter located within the hollow body, the confinement structure having an opening therein;  a passage into the hollow body positioned for communication with an interior portion of the confinement structure through the opening;  a closure moveable into and out of the opening for selectively blocking communication with the interior portion of the confinement structure;  a source of power operable to energize the confinement structure to generate a single type of inwardly directed force field that prevents anti-matter within the interior portion of the confinement structure from coming into contact therewith;  a second opening in the confinement structure, the second opening being located at a radially opposite region of the confinement structure from the first-mentioned opening;  a second passage into the hollow body positioned for communication with the interior of the confinement structure through the second opening;  a second closure moveable into and out of the second opening, the first-mentioned closure and the second closure being shaped to seal the first and second openings;  wherein the closures are energizable by the power source to generate a portion of the force field. 8. A device for storage of anti-matter comprising: an evacuable hollow body including:  a confinement structure for anti-matter located within the hollow body, the confinement structure having an opening therein;  a passage into the hollow body positioned for communication with an interior portion of the confinement structure through the opening;  a closure moveable into and out of the opening for selectively blocking communication with the interior portion of the confinement structure;  a source of power operable to energize the confinement structure to generate a single type of inwardly directed force field that prevents anti-matter within the interior portion of the confinement structure from coming into contact therewith;  a second opening in the confinement structure, the second opening being located at a radially opposite region of the confinement structure from the first-mentioned opening;  a second passage into the hollow body positioned for communication with the interior of the confinement structure through the second opening;  a second closure moveable into and out of the second opening, the first-mentioned closure and the second closure being shaped to seal the first and second openings;  wherein the first and second closures respectively seal the first passage and the first opening, and the second passage and the second opening; and  an elongated rod extending through the geometric center of the of the hollow body that supports the first and second closures the rod being operable to move the closures together into and out of the first and second openings. 9. A device for storage of anti-matter comprising: an evacuable hollow body including:  a confinement structure for anti-matter located within the hollow body, the confinement structure having an opening therein;  a passage into the hollow body positioned for communication with an interior portion of the confinement structure through the opening;  a closure moveable into and out of the opening for selectively blocking communication with the interior portion of the confinement structure;  a source of power operable to energize the confinement structure to generate a single type of inwardly directed force field that prevents anti-matter within the interior portion of the confinement structure from coming into contact therewith;  an introduction channel that communicates with the passage into the hollow body for introducing anti-matter into the confinement structure;  the introduction channel comprises an evacuable inner space bounded by channel walls and communicating into the hollow body; and  the introduction channel and the evacuable inner space in the channel being operative to generate a force field directed so that the anti-matter can be kept in the inner region of the introduction channel without contacting the channel walls. 10. The device of  claim 9 , wherein: claim 9 the closure is so shaped and is moveable as to be received at least partially into the interior of the introduction channel; and  the closure is energizable by the source to generate a force field that guides the anti-matter into the hollow body upon movement thereof into the interior of the hollow body. 11. The device of claims, further comprising: a second opening in the inner shell, the first-mentioned opening and the second opening being located at radially opposite regions of the confinement structure;  a second closure, the first-mentioned closure and the second closure being respectively shaped to engage in and close the first and second openings; and  an entrance into the introduction channel for anti-matter; and wherein:  the first and second closures are so spaced apart and the entrance is so placed in the channel that the first and second closing pieces can bracket the sides of the entrance when in the channel and bound the inner space with anti-matter therein; and  the closures and the channel are operative to move anti-matter into the confinement structure as the closures move. 12. The device of  claim 10 , further comprising a plurality of the openings and a respective plurality of the closures for the openings, a support structure that supports the closures at a constant distance from one another and moves the closures into and out of the introduction channel and the openings in the confinement structure. claim 10