Abrading – Abrading process – Glass or stone abrading
Reexamination Certificate
1999-10-22
2003-06-17
Rose, Robert A. (Department: 3723)
Abrading
Abrading process
Glass or stone abrading
C451S504000
Reexamination Certificate
active
06579152
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a polishing apparatus for polishing a workpiece, and more particularly to a polishing apparatus for polishing a workpiece such as a semiconductor wafer to a flat mirror finish.
2. Description of the Related Art
Recent rapid progress in semiconductor device integration demands smaller and smaller wiring patterns or interconnections and also narrower spaces between interconnections which connect active areas. One of the processes available for forming such interconnection is photolithography. Though the photolithographic process can form interconnections that are at most 0.5 &mgr;m wide, it requires that surfaces on which pattern images are to be focused by a stepper be as flat as possible because the depth of focus of the optical system is relatively small. Conventionally, as apparatuses for planarizing semiconductor wafers, there have been used a self-planarizing CVD apparatus, an etching apparatus or the like, however, these apparatuses fail to fully planarize semiconductor wafers. Recently, attempts have been made to use a polishing apparatus for planarizing semiconductor wafers to a flatter finish with more ease than those conventional planarizing apparatuses.
Conventionally, a polishing apparatus has a turntable and a top ring which rotate at respective individual speeds. A polishing cloth is attached to the upper surface of the turntable. A semiconductor wafer to be polished is placed on the polishing cloth and clamped between the top ring and the turntable. An abrasive liquid containing abrasive grains is supplied onto the polishing cloth and retained on the polishing cloth. During operation, the top ring exerts a certain pressure on the turntable, and the surface of the semiconductor wafer held against the polishing cloth is therefore polished by a combination of chemical polishing and mechanical polishing to a flat mirror finish while the top ring and the turntable are rotated. This process is called Chemical Mechanical polishing.
Attempts have heretofore been made to apply an elastic pad of polyurethane or the like to a workpiece holding surface of the top ring for uniformizing a pressing force applied from the top ring to the semiconductor wafer. If the pressing force applied from the top ring to the semiconductor wafer is uniformized, the semiconductor wafer is prevented from being excessively polished in a local area, and hence is polished to a highly flat finish.
The polishing apparatus is required to have such performance that the surfaces of semiconductor wafers have a highly accurate flatness. Therefore, it is preferable that the lower end surface of the top ring which holds a semiconductor wafer, and the contact surface of the polishing cloth which is held in contact with the semiconductor wafer, and hence the upper surface of the turntable to which the polishing cloth is attached, have a highly accurate flatness, and those highly accurately flat surfaces which are kept parallel to each other in cooperation with a gimbal mechanism of the top ring unit have been used in the art.
In order to prevent a polishing surface, i.e. an upper surface of the turntable, from being deformed into an upwardly convex shape due to frictional heat generated in a polishing process, there has been proposed a technique in which the turntable comprises an upper plate and a lower plate which are laminated and made up of materials having different coefficients of thermal expansion. Specifically, the coefficient of thermal expansion of the upper plate is smaller than that of the lower plate, and even if the temperature of the turntable is raised due to frictional heat generated in the polishing process, the upper and lower plates expand equally because there is a temperature difference between the upper plate and the lower plate, thus keeping the upper surface (the polishing surface) of the turntable flat. As a result, both of the lower end surface of the top ring and the upper surface of the turntable are kept flat, and parallelism of both surfaces is maintained in cooperation with a gimbal mechanism of the top ring unit.
Further, for solving this kind of problem, there has been proposed another technique in which the upper surface of the turntable is deformed into an upwardly convex shape due to frictional heat generated in the polishing process, and the lower end surface of the top ring (or carrier) is caused to be deformed into a concave shape opening toward the bowed turntable by evacuating air in a chamber formed in the top ring so as to conform to the bowed turntable. Thus, the upper surface of the turntable and the lower end surface of the top ring are kept parallel to each other for improving polished wafer flatness.
Efforts have been made to find an ideal polishing surface, i.e., an ideal upper surface of the turntable and/or an ideal pressing surface, i.e., an ideal lower end surface of the top ring by inventors of the present application. It is found by the inventors that the upper surface of the turntable and the lower end surface of the top ring which are not necessarily flat are desirable.
SUMMARY OF THE INVENTION
It is therefore an object of the present invention to provide a polishing apparatus which can polish a workpiece such as a semiconductor wafer to a flat mirror finish over the entire surface thereof even if the workpiece has a large diameter.
According to one aspect of the present invention, there is provided an apparatus for polishing a surface of a workpiece, the apparatus comprising: a turntable having a polishing surface; and a top ring having a pressing surface for holding a workpiece to be polished and pressing the workpiece against the polishing surface of the turntable; wherein at least one of the polishing surface of the turntable and the pressing surface of the top ring is a curved surface.
According to another aspect of the present invention, there is provided an apparatus for polishing a surface of a workpiece, the apparatus comprising: a turntable having a polishing surface; and a top ring having a pressing surface for holding a workpiece to be polished and pressing the workpiece against the polishing surface of the turntable; wherein the polishing surface of the turntable is a spherical convex surface having a radius of curvature ranging from 500 to 5,000 m.
The polishing surface of the turntable is defined as “a surface to which a polishing cloth is attached if the polishing cloth is used or a surface which contacts a workpiece directly if the polishing cloth is not used.” The pressing surface of the top ring is defined as “a surface to which an elastic pad is attached if the elastic pad is used or a surface which contacts the workpiece directly if the elastic pad is not used”.
According to the present invention, the polishing pressure which is applied to the workpiece clamped between the pressing surface, i.e. the lower end surface of the top ring, and the polishing surface, i.e. the upper surface of the turntable, can be uniformized over the entire surface of the workpiece. Therefore, the local area of the workpiece is prevented from being polished excessively or insufficiently, and the entire surface of workpiece can thus be polished to a flat mirror finish. In the case where the present invention is applied to semiconductor manufacturing processes, the semiconductor devices can be polished to a high quality, and yields of the semiconductor devices can be increased.
The above and other objects, features, and advantages of the present invention will become more apparent from the following description when taken in conjunction with the accompanying drawings in which a preferred embodiment of the present invention is shown by way of illustrative example.
REFERENCES:
patent: 4313284 (1982-02-01), Walsh
patent: 4450652 (1984-05-01), Walsh
patent: 4918869 (1990-04-01), Kitta
patent: 5036630 (1991-08-01), Kaanta et al.
patent: 5486129 (1996-01-01), Sandhu et al.
patent: 5605499 (1997-02-01), Sugiyama et al.
patent: 5651724 (1997-07-01), Kimura et al.
patent: 571
Ebara Corporation
Rose Robert A.
Wenderoth , Lind & Ponack, L.L.P.
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