Automatic reloading and transport system for solid targets

The invention claimed is: 1. An automatic reloading and transport system for handling solid targets for a particle accelerator, comprising: a capsule configured to accommodate at least one solid target; a pneumatic tube transport system comprising at least two end stations each configured to dock and undock the capsule; a handling mechanism to open and close the capsule, and to move the target from or to the open capsule; a target positioning device configured to receive the target from the handling mechanism and move the target to a position for receiving a beam of accelerated particles from the particle accelerator, wherein upon irradiation of the target by the beam of accelerated particles, the target positioning device is configured to move the target back to a position for target manipulation by the handling mechanism. 2. The system of claim 1 , wherein the particle accelerator is a cyclotron. 3. The system of claim 1 , for use with solid targets that have an active face comprising a foiled, electroplated, vacuum evaporated or sputtered active material. 4. The system of claim 1 , wherein the pneumatic tube transport system is configured to transport the solid target from a point of irradiation at the particle accelerator to a target processing point and from the target processing point back to the point of irradiation. 5. The system of claim 1 , wherein the capsule comprises: a securing mechanism adapted to lock and unlock the capsule; a top piece adapted to be engaged by the securing mechanism; and a bottom piece adapted to hold the target, wherein the bottom piece comprises the securing mechanism. 6. The system of claim 5 , wherein the securing mechanism of the capsule further comprises a spring loaded latch system, wherein when the top and bottom piece of the capsule are pushed together the spring loaded latch system is configured engage the top piece of the capsule and lock both pieces together, wherein the spring loaded latch system further comprises an unlocking feature configured to release the spring load of latches of the spring loaded latch system and unlock the capsule in response to the capsule being moved against the end bottom part of the pneumatic tube transport system. 7. The system of claim 5 , wherein the handling mechanism includes a plurality of movable jaws configured to engage the top piece and the bottom piece of the capsule, wherein the jaws are configured to move whole capsule to engage unlocking feature of the capsule and to pull the top and bottom piece of the capsule away from each other to open the capsule or push the top and bottom piece of the capsule together to lock the capsule. 8. The system of claim 1 , wherein the handling mechanism comprises a target manipulator that includes an arm and at least one suction cup located at the end of the arm, wherein the suction cup is adapted to apply a negative gas pressure to adhere to a surface of the solid target and enable manipulation of the target. 9. The system of claim 8 , wherein the target manipulator is adapted to move rotationally about its axis to manipulate the solid target from or to the open capsule, wherein the target manipulator is further configured to move linearly up and down to enable the target removal from target holders. 10. The system of claim 9 , wherein the target manipulator is adapted to manipulate the solid target from the open capsule directly to a target port of the solid target processing system and back. 11. The system of claim 8 , wherein the target positioning device comprises: an input port having a first sealing system adapted to create a sealed connection between a beam port or a beam selector port of the particle accelerator and the target positioning device; a target holder configured to receive the solid target from the manipulator and pivot about an axis to place an active face of the solid target to be in position to receive the beam of accelerated particles; and a second sealing system configured to create a sealed interface between the active face of the solid target and the input port. 12. The system of claim 11 , wherein the target holder is configured to pivot about the axis so that the active face of the solid target is placed perpendicularly to the beam of accelerated particles. 13. The system of claim 11 , wherein the target holder is configured to position the active face of the solid target in front of the beam of accelerated particles under an angle, wherein the target holder is further configured to rotate the target when exposed to the beam of accelerated particles. 14. The system of claim 11 , wherein the second sealing system comprises a compression seal feature located at the input port of the target positioning device and a mechanism adapted to move the pivoted target holder to engage and disengage the compression seal feature. 15. The system of claim 11 , wherein the target holder further comprises a set of fingers configured to be mechanically controlled so that they hold the target within the target holder when the holder is being pivoted or the target positioning mechanism is in the close position.