Patent Number: 
Section: claims

1. A method for controlling a temperature of an ion source chamber comprising:supplying a dopant gas into a gap of said ion source chamber, said gap defined between a wall of said ion source chamber and a liner disposed within said chamber;supplying a first portion of said dopant gas into an interior of said chamber via one or more orifices disposed through said liner; anddifferentially pumping a second portion of said dopant gas away from said gap such that a third portion of the dopant gas remaining within said gap provides a cooling media to control the temperature of the interior of said chamber. 2. The method of claim 1 further comprising regulating the flow of said dopant gas into the interior of said chamber by modifying the differential pumping rate. 3. The method of claim 1 further comprising regulating the flow of said dopant gas into the interior of said chamber by modifying the supply of dopant gas to said gap. 4. An ion source comprising:a chamber having a wall that defines an interior surface;a liner disposed within said chamber, said liner having at least one orifice to supply dopant gas to an inside of said chamber, said dopant gas used to provide ions emitted from said chamber;a gap defined between at least a portion of the interior surface of said chamber and said liner;a first conduit configured to supply dopant gas to said gap, said dopant gas having a flow rate within said gap; anda second conduit connected to said gap and configured to remove said dopant gas from said gap, wherein the flow rate of said dopant gas within said gap acts as a heat transfer media to regulate the temperature of the interior of said chamber. 5. The ion source of claim 4 further comprising a pocket disposed within said chamber wall, said pocket configured to receive said dopant gas flowing through said gap, said pocket further configured to allow uniform dopant gas distribution within said gap thereby providing uniform temperature distribution in the source chamber. 6. The ion source of claim 5 wherein said pocket is a first pocket, said ion source further comprising a second pocket disposed within said chamber wall, said second pocket configured to receive said dopant gas flowing through said gap, said second pocket further configured to allow uniform dopant gas distribution within said gap thereby providing uniform temperature distribution in the source chamber. 7. The ion source of claim 4 further comprising a plurality of spacers disposed between said liner and said chamber wall at least around a portion of a perimeter of said gap. 8. The ion source of claim 4 further comprising an indirectly heated cathode located at a first end of said chamber configured to emit electrons within said chamber. 9. The ion source of claim 8 further comprising a repeller located within a second end of said chamber, said emitted electrons confined between said cathode and said repeller which collide with said dopant gas supplied to the interior of said chamber via said at least one orifice to generate plasma therein. 10. The ion source of claim 9 wherein said chamber further comprising an aperture through which ions from said plasma are extracted. 11. The ion source of claim 5 wherein said pocket extends substantially a length of said wall. 12. The ion source of claim 6 wherein said second pocket extends substantially a length of said wall.