Patent Number: 055085180
Section: description

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS OF THE INVENTION FIG. 1 shows an E-beam lithography tool 10 with the vibration isolation configuration of the present invention. The E-beam lithography tool 10 can advantageously be a reduction-projection or scanning E-beam system. However, it should be understood that this invention is not limited E-beam lithography. For example, the vibration isolation configuration can also be used with other lithography tools, such as optical tools or the like, as well as inspection tools, such as electron microscopes or the like. The chief objective of the present invention is to isolate the optical components of the tool 10 from vibrations from the floor as well as vibrations produced by moving and/or vibrating components used in the tool itself. The tool 10 includes a ground frame 12 which supports a substrate handling module 14, an exposure module 16, and a stage drive module 18. The important feature of this invention is that the optical subsystem referred to as the exposure module 16 is isolated from the ground, while the substrate handling module 14 and stage drive module 18, which both include sources of vibration, are connected to ground. For example, the substrate handling module 14 includes means for moving wafers 20 in and out of the exposure module 16 as indicated by double ended arrow 22, and means for moving masks 24 in and out of the exposure module 16 as indicated by double ended arrow 26. In addition, vacuum pump 28 is connected to the substrate handling module 14. The means for moving wafers 22, the means for moving masks 24, and the vacuum pump 28 are each connected to ground frame 12 such that vibrations from these components can be directed to ground. Likewise, the stage drive module 18 includes servo motors 30 and 32 for driving the X-Y stages 34 and 36 that move the wafers 20' and masks 24', respectively, within the exposure module 16. In addition, vacuum pump 38 is connected to the stage drive module 18. The servo motors 30 and 32, and the vacuum pump 38 are each connected to the ground frame 28 such that vibrations from these components are directed to ground. By contrast, the exposure module 16, which includes all the optical components needed for lithography, inspection, or the like, is completely isolated from the ground frame 12. FIG. 1 shows an E-beam lithography tool 10 wherein the exposure module 16 comprises an electron column 40, stage plates 42 and 44 for the X-Y stages 34 and 36 for the wafer 20' and mask 24', respectively, and the metrology flamework which includes a suspending member 48, a mask compartment 50, a projection sub-unit 52, and a wafer compartment 54. Bellows 56 and 58 allow wafers 20 and masks 24 to be inserted into and withdrawn from the wafer compartment 54 and the mask compartment 50, respectively. The bellows are preferably made of stainless steel, polymers, or some other suitable material, and are preferably corrugated such that vibrations from the substrate handling module 14 are not transmitted to the exposure module 16 during movement of the wafers 20 and masks 24 into the wafer compartment 54 and mask compartment 50, respectively. Bellows 60 and 62 allow the X-Y stages 42 and 44 to be controlled within the wafer compartment 54 and mask compartment 50, respectively, by servo motors 30 and 32, using drive arms 64 and 66, or the like. The bellows 60 and 62 are preferably made from similar materials to those described in conjunction with bellows 56 and 58, and have a similar corrugated configuration. The bellows 56, 58, 60, and 62 provide high vacuum connections between the exposure module 16 and adjacent modules 14 and 18, and are heavily damped to prevent vibrations from being transmitted to said exposure module 16 from the substrate handling module 14 or stage drive module 18. Interposed between the suspending member 48 and the frame portions of the substrate handling module 14 and stage drive module 18 are vibration isolation components 64 and 66. The isolation components 64 and 66 serve to prevent mechanical vibrations from being transmitted to the exposure module. The isolation components can be of the type which are commercially available from Barry Controls, Newport, or Integrated Dynamics Engineering. Vibrations emanating from ground, such as those that are transmitted along a factory floor, can be dissipated by vibration damping devices 68 which can be rubberized pads or the like. However, because the exposure module 16 is isolated from ground as described above, vibration damping from ground sources is not required. While the invention has been described in terms of its preferred embodiments, those skilled in the art will recognize that the invention can be practiced with modification within the spirit and scope of the appended claims.