Patent Number: 
Section: claims

1. A multi-beam system, comprising:a vacuum chamber;a workpiece support for supporting a workpiece within the vacuum chamber;a charged particle beam system for generating a beam of charged particles, said beam directed toward the workpiece;a laser beam system for generating a laser beam for processing the workpiece in the vacuum chamber;a focused ion beam system for generating a focused ion beam;an electron beam system for monitoring the material removal process;an objective lens;a laser beam alignment system that allows for the laser beam to be made through the center of the objective lens to target a eucentric point of the workpiece. 2. The multi-beam system of claim 1 in which the laser beam is operated at a fluence greater than an ablation threshold of the workpiece. 3. The multi-beam system of claim 2 in which the laser beam is a short, nanosecond to femtosecond, pulsed laser beam. 4. The multi-beam system of claim 1 in which the laser beam is operated at a fluence that reacts with the workpiece without ablation. 5. The multi-beam system of claim 4 in which the laser beam is a thermally induced chemical desorption process. 6. The multi-beam system of claim 4 in which the laser beam involves laser photochemistry. 7. The multi-beam system of claim 1 having at least one quad cell detector. 8. The multi-beam system of claim 7 wherein the at least one quad cell detector is located as close to the output of the objective lens to provide precision of the laser beam and to prevent damage to the detector induced by the focused laser beam. 9. The multi-beam system of claim 7 wherein the laser beam goes through an objective lens and wherein the laser beam is eucentric to the target. 10. The multi-beam system of claim 1 including a first beam steering controller which responds to a position signal detected by a first beam alignment detector and directs the first steering mirror to move a beam toward a first position;and a second beam steering controller which responds to a position signal detected by a second beam alignment detector and directs the second steering mirror to move the beam toward a second position. 11. The multi-beam system of claim 10 wherein the first position and the second position are eucentric to the sample. 12. The multi-beam system of claim 1 wherein the laser beam goes through an objective lens and wherein the laser beam is eucentric to the target. 13. A method for laser alignment within a charged particle beam system, comprising:coarsely focusing and aligning a laser beam at a workpiece;positioning the laser beam so that it passes through a laser injection port window and into a vacuum chamber;moving a quad cell detector to a pre-aligned position in the laser beam pathway,positioning the laser beam so that it is pointed on a first point of a beam splitter;monitoring the position of the beam on the objective lens with the quad cell detector;using a fast steering mirror to adjust the laser beam so that the laser beam is pointed to a second point aligned with the workpiece; andmonitoring the position of the laser beam again on the objective lens so that it is pointed to said first point. 14. A method for laser alignment of claim 13 wherein beam position on the first point is made from converted voltages that is are applied to voice coils of the fast steering mirror. 15. A method for laser alignment of claim 13 wherein the process of targeting the laser beam on the first point and the second point is done repeatedly until the laser beam is aligned to both the first point and the second point. 16. A method for laser alignment of claim 13 wherein the fast steering mirror is used to scan the beam on the sample. 17. A method for laser alignment of claim 13 wherein if the steering mirror is not centered on the second point, the steering mirror is moved in the X/Y directed to center the beam. 18. A method for laser alignment of claim 13 wherein a laser spot is machined on the workpiece and compared to the system's eucentric point. 19. A method of using a laser system of claim 18 wherein if the laser spot does not match with the eucentric point, repeating the procedure until they match.