Patent Number: 048067695
Section: claims

1. A disk exchangeable target mechanism of an ion implantation system including an exposure chamber into which the disk exchangeable target mechanism is inserted and in which accelerated ion beams are directed onto semiconductor wafers mounted on the disk exchangeable target mechanism, comprising: a metal target disk on which a semiconductor wafer(s) to be ion-implanted is mounted on a first face thereof;  a support including a metal base upon which said target disk is mounted, and a shaft incorporated with said base, said support being rotatable in said exposure chamber by a force applied to said shaft during an ion-implantation process, said target disk being detachable from said support when taken out of said exposure chamber, and  said metal base being provided with a cavity through which a coolant is passed; and  means, provided between a second face of said target disk opposite to said first face and said base, for providing thermal contact therebetween.  wherein a cooling medium is inserted into said cavity through the first hole and the inserted cooling medium is drained from said cavity through the second hole.  a rotatable support including a disk-shaped metal base having a coolant fluid cavity therein, and a shaft extending axially through the center of the base;  a metal target disk, on which semiconductor wafers to be ion implanted are mounted on a first face thereof, including a central opening and quick release mounting means, said target disk being detachably mounted with said quick release mounting means on said support, the central opening cooperating with the shaft of said support and a first face of said support adjoining a second face of said metal target disk; and  thermal contact means, provided between the second face of said metal target disk and the first face of said support, for providing good thermal conductivity between said metal target disk and said support. 2. A disk exchangeable target mechanism according to claim 1, wherein said thermal contacting means maintains uniform thermal contact with metal. 3. A disk exchangeable target mechanism according to claim 2, wherein said thermal contacting means has a high thermal conductivity. 4. A disk exchangeable target mechanism according to claim 3, wherein said thermal contacting means is stable in a vacuum. 5. A disk exchangeable target mechanism according to claim 4, wherein said thermal contacting means comprises a silicon rubber sheet. 6. A disk exchangeable target mechanism according to claim 4, wherein said thermal contacting means comprises a polyfloraethylene film. 7. A disk exchangeable target mechanism according to claim 1, wherein said shaft is provided with first and second holes communicating with said cavity, and 8. A disk exchangeable target mechanism according to claim 7, wherein said cooling medium in said holes comprises water. 9. A disk exchangeable target mechanism according to claim 1, wherein said target disk is provided with thermal transportation means for transporting thermal energy from a first portion(s) at which a high temperature is caused by ion implantation energy to a second portion(s) at which a temperature is low. 10. A disk exchangeable target mechanism according to claim 9, wherein said thermal transportation means comprises heat pipes. 11. A disk exchangeable target mechanism according to claim 10, wherein said heat pipe contain a cooling medium having a low boiling temperature. 12. A disk exchangeable target mechanism according to claim 11, wherein said heat pipes are provided radially with respect to a rotation center of said target disk. 13. A disk exchangeable target mechanism according to claim 12, wherein said cooling medium is a hydrocarbon fluoride. 14. A disk exchangeable target mechanism according to claim 12, wherein said cooling medium is ethanol. 15. A disk exchangeable target mechanism according to claim 7, wherein said target disk is provided with thermal transportation means for transporting thermal energy at a first portion(s) at which a high temperature is caused by ion implantation energy to a second portion(s) at which the temperature is low. 16. A disk exchangeable target mechanism according to claim 15, wherein said thermal transportation means comprises a heat pipe(s). 17. A disk exchangeable target mechanism for an ion implantation system, the ion implantation system including an exposure chamber into which the disk exchangeable target mechanism is inserted and in which accelerated ion beams are directed onto semiconductor wafers mounted on the disk exchangeable target mechanism, said disk exchangeable target mechanism comprising: 18. A disk exchangeable target mechanism according to claim 17, wherein said metal target disk further includes fluid filled heat pipes formed therein, said heat pipes being sealed and independent of each other, said heat pipes transferring thermal energy from high temperature portions of said metal target disk to low temperature portions thereof. 19. A disk exchangeable target mechanism according to claim 18, wherein said heat pipes are arranged radially with respect a rotational center of said target disk and contain a cooling medium having a low boiling temperature. 20. A disk exchangeable target mechanism according to claim 17, wherein said shaft is provided with central openings which communicate with the cooling fluid cavity in said base and supply and drain a cooling medium to and from the cavity