Radiant energy – Photocells; circuits and apparatus – With circuit for evaluating a web – strand – strip – or sheet
Reexamination Certificate
1999-01-20
2002-05-28
Le, Que T. (Department: 2878)
Radiant energy
Photocells; circuits and apparatus
With circuit for evaluating a web, strand, strip, or sheet
C250S201200
Reexamination Certificate
active
06396071
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to an exposure apparatus to be used in a photolithography process for manufacturing a semiconductor device, a liquid crystal display device, a thin film magnetic head, etc. and more particularly to a scanning type exposure apparatus for exposing a pattern of a mask (or reticle) to a photosensitive substrate by shifting the mask and the photosensitive substrate synchronously.
2. Related Background Art
In a photolithography process for manufacturing a semiconductor device, a projection exposure apparatus is used wherein the pattern of a photomask or a reticle (hereinafter referred to the reticle) is transferred via a projection optical system to a semiconductor wafer (or a glass plate, etc.) coated with a photosensitive material (photoresist). Presently, reduction projection type exposure apparatuses (steppers) of a step-and-repeat system disclosed in e.g., U.S. Pat. Nos. 4,677,301 and 4,962,318 have been widely used. As illumination for exposure, emission lines (i-line and the like) from a mercury lamp, a KrF or ArF excimer laser or a higher harmonic such as of a metal vapor laser or a YAG laser is used.
In projection exposure apparatuses as disclosed in e.g., U.S. Pat. Nos. 4,712,910 and 4,884,101, a shutter is utilized to open and close the path of light from a light source thereby to control the amount of exposure. That is, the amount of exposure imparted to a wafer is controlled to an optimum value corresponding to the sensitivity of the photoresist of the wafer. Especially in projection type exposure apparatuses with pulsed laser light sources such as of an excimer laser or the like, as disclosed in, e.g., U.S. Pat. Nos. 4,970,546, 5,097,291 and 5,191,374, an amount of energy per pulse is set to a predetermined value thereby to control the amount of exposure.
Recently, as semiconductors become large in size and minute in structure, it is required to enlarge the image field of the projection optical system and to improve the resolution thereof. However, it is extremely difficult to obtain both the high resolution and the large image field in the projection optical system from the viewpoint of design and manufacture. Therefore, as disclosed in, e.g., U.S. Pat. Nos. 4,747,678, 4,924,257 and 5,194,893, scanning type projection exposure apparatuses are paid attention in which only a local area of a reticle is illuminated and the reticle and a wafer are shifted synchronously to expose the pattern of the reticle to the wafer. In such scanning type exposure apparatuses, even though the image field of a projection optical system is small, it is possible to exposure a pattern with a large area to the wafer and to improve the resolution of the projection optical system comparatively easily.
However, if the conventional exposure control method is applied to such scanning type exposure apparatuses, the amount of exposure to the wafer cannot be controlled to an optimum value corresponding to the sensitivity of the photoresist. That is, in a scanning type exposure apparatus with a light source emitting continuous light such as of i-lines, even though only a time for opening a shutter is controlled as in U.S. Pat. No. 4,712,910, an optimum amount of exposure cannot be imparted to the wafer. Also, when the sensitivity of the photoresist is changed, the amount of exposure cannot be controlled properly in accordance with the change. Further, in a scanning type exposure apparatus with a light source emitting a light beam such as an excimer laser, etc., there is a chance that the number of light beams illuminating a wafer is different in various positions on the wafer in accordance with the relationship between the rate of movement of the wafer and the timing of emissions of light beams. Namely, there is a change that unevenness of the amount of light occurs.
SUMMARY OF THE INVENTION
It is therefore a first object of the present invention to provide a scanning type exposure apparatus in which even though the pattern of a reticle is scanned and exposed to a photosensitive substrate by the use of a light source for emitting continuous light, an optimum amount of exposure can be imparted to the photosensitive substrate in accordance with the sensitivity thereof without lowering the throughput and incurring unevenness of illuminance.
It is a second object of the present invention to provide a scanning type exposure apparatus in which even though the pattern of a reticle is scanned and exposed to a photosensitive substrate by use of a light source for emitting laser lights, an optimum amount of exposure can be imparted to the photosensitive substrate without causing unevenness of the quantity of light.
Therefore, in order to achieve the first object, a first apparatus of the present invention has a light source for emitting continuous light, an illumination optical system for illuminating a local area on a mask with light from the light source and a projection optical system for projecting the image of the pattern of the mask within the local area to a photosensitive substrate with a photosensitive material applied thereon and, the pattern of the mask is scanned and exposed on the sensitive substrate by synchronously shifting the mask and the photosensitive substrate in a predetermined scanning direction perpendicular to an optical axis of the projection optical system. The first apparatus further has an adjusting device for adjusting the intensity of the light to be incident on the substrate and a control device for controlling the adjusting device in accordance with the sensitivity characteristic of the photosensitive material, the speed of the substrate and the width of a projection area of the pattern of the mask by the projection optical system in the scanning direction. Therefore, even though the sensitivity characteristic of the photosensitive material is changed, the intensity of the light is changed accordingly, so that an optimum amount of exposure can be imparted to the substrate. In particular, when the photosensitive material has a low sensitivity, the intensity of the light is increased, so that the speed of the substrate can be maintained to an upper limit (the maximum speed of the substrate stage). Therefore, the lowering of the throughput can be prevented. On the other hand, when the photosensitive material has a high sensitivity, even though the speed of the substrate reaches the upper limit (the maximum speed of the substrate stage), the intensity of the light is decreased, so that an optimum amount of exposure can be imparted to the substrate.
Also, in order to achieve the first object of the present invention, a second apparatus has a light source for emitting continuous light, an illumination optical system for illuminating a local area on a mask with the light from the light source and a projection optical system for projecting the image of a pattern on the mask within the local area to a substrate with a photosensitive material applied thereto. And, the image of the pattern of the mask is scanned and exposed on the substrate by synchronously shifting the mask and the substrate in a predetermined scanning direction perpendicular to the optical axis of the projection optical system. The second apparatus further has an optical member for varying the width of the local area on the mask in the scanning direction and a control device for controlling the optical member in accordance with the intensity of the light to be incident on the substrate, the sensitivity characteristic of the photosensitive material and the speed of the substrate. Therefore, even though the sensitivity characteristic is changed, an optimum amount of exposure can be imparted to the substrate, as the width of the projection area of the pattern of the mask by the projection optical system in the scanning direction is changed. In particular, when the photosensitive material has a low sensitivity, the width of the local illumination area on the mask in the scanning direction is enlarged, so that the speed of the substrate can be
Nishi Kenji
Wakamoto Shinji
Le Que T.
Miles & Stockbridge P.C.
Nikon Corporation
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