摘要:
A projection exposure apparatus wherein a pattern formed on a mask is projected onto a substrate through a projection optical system. The apparatus has an illumination optical system for illuminating the mask by exposure light, and a first adjusting member which is disposed in the illumination optical system to change telecentricity on the substrate. The apparatus further has a second adjusting member for adjusting at least one of the position of the substrate in the direction of an optical axis of the projection optical system and the tilt of the substrate, and a control system for controlling the first and second adjusting members. The control system locally corrects the position of a spatial image formed by the projection optical system.
摘要:
An apparatus for exposing a pattern, formed on a mask, on each of a plurality of partitioned areas on a photosensitive substrate by a step-and-repeat scheme includes a projection optical system for projecting the pattern of the mask on the photosensitive substrate, a substrate stage for holding the photosensitive substrate and two-dimensionally moving the photosensitive substrate within a plane perpendicular to the optical axis of the projection optical system, a detection unit for projecting a pattern image having a predetermined shape on the photosensitive substrate and photoelectrically detecting light reflected by the photosensitive substrate to detect a position at each of a plurality of points on the photosensitive substrate along the optical axis of the projection optical system, and a measurement unit for, when each of a plurality of measurement points in a partitioned area on which a pattern of the mask is to be exposed next coincides with or approaches the pattern image, detecting an offset amount between an imaging plane of the projection optical system and the next partitioned area along the optical axis during a stepping operation of the substrate stage, wherein the imaging plane and the next partitioned area are relatively moved along the optical axis in accordance with the measured offset amount before the pattern of the mask is exposed on the next partitioned area.
摘要:
An apparatus for exposing a pattern, formed on a mask, on each of a plurality of partitioned areas on a photosensitive substrate by a step-and-repeat scheme includes a projection optical system for projecting the pattern of the mask on the photosensitive substrate, a substrate stage for holding the photosensitive substrate and two-dimensionally moving the photosensitive substrate within a plane perpendicular to the optical axis of the projection optical system, a detection unit for projecting a pattern image having a predetermined shape on the photosensitive substrate and photoelectrically detecting light reflected by the photosensitive substrate to detect a position at each of a plurality of points on the photosensitive substrate along the optical axis of the projection optical system, and a measurement unit for, when each of a plurality of measurement points in a partitioned area on which a pattern of the mask is to be exposed next coincides with or approaches the pattern image, detecting an offset amount between an imaging plane of the projection optical system and the next partitioned area along the optical axis during a stepping operation of the substrate stage, wherein the imaging plane and the next partitioned area are relatively moved along the optical axis in accordance with the measured offset amount before the pattern of the mask is exposed on the next partitioned area.
摘要:
An apparatus for exposing a pattern, formed on a mask, on each of a plurality of partitioned areas on a photosensitive substrate by a step-and-repeat scheme includes a projection optical system for projecting the pattern of the mask on the photosensitive substrate, a substrate stage for holding the photosensitive substrate and two-dimensionally moving the photosensitive substrate within a plane perpendicular to the optical axis of the projection optical system, a detection unit for projecting a pattern image having a predetermined shape on the photosensitive substrate and photoelectrically detecting light reflected by the photosensitive substrate to detect a position at each of a plurality of points on the photosensitive substrate along the optical axis of the projection optical system, and a measurement unit for, when each of a plurality of measurement points in a partitioned area on which a pattern of the mask is to be exposed next coincides with or approaches the pattern image, detecting an offset amount between an imaging plane of the projection optical system and the next partitioned area along the optical axis during a stepping operation of the substrate stage, wherein the imaging plane and the next partitioned area are relatively moved along the optical axis in accordance with the measured offset amount before the pattern of the mask is exposed on the next partitioned area.
摘要:
In a scanning-type projection exposure system, curvature of a movable mirror that is used to measure mask stage coordinate positions is determined while the mask stage is moved in the scanning direction, by measuring coordinate positions, perpendicular to the scan direction, of the mask stage and of a mask mark elongated in the scan direction. The results of the measurements are used for correcting or compensating positional deviation during scanning. Rotational deviation of a mask pattern area is determined and is corrected or compensated. Also, a mask is aligned with respect to a coordinate system of the mask stage as pre-processing for exposure, using a mask alignment mark having two crossing linear patterns and determining a coordinate position of the crossing point by moving the mask relative to an observation area.
摘要:
In a scanning-type projection exposure system, curvature of a movable mirror that is used to measure mask stage coordinate positions is determined while the mask stage is moved in the scanning direction, by measuring coordinate positions, perpendicular to the scan direction, of the mask stage and of a mask mark elongated in the scan direction. The results of the measurements are used for correcting or compensating positional deviation during scanning. Rotational deviation of a mask pattern area is determined and is corrected or compensated. Also, a mask is aligned with respect to a coordinate system of the mask stage as pre-processing for exposure, using a mask alignment mark having two crossing linear patterns and determining a coordinate position of the crossing point by moving the mask relative to an observation area.
摘要:
A projection optical system of a projection exposure apparatus according to the present invention has a plurality of optical members made of glass materials at least one of which has a temperature characteristic of index of refraction different from that of the other glass material. Further, a temperature control device for controlling a temperature of at least one of the optical members is provided. An imaging characteristic of the projection optical system is controlled. The imaging characteristic to be controlled is a non-linear magnification or curvature of field. The temperature control device sets the temperature to be controlled to a variable target temperature determined in accordance with the imaging characteristic of the projection optical system. An exposing operation for transferring a mask pattern to a photosensitive substrate is started after the temperature of the optical member to be controlled reaches a predetermined allowable range of the target temperature.
摘要:
A projection optical system of a projection exposure apparatus according to the present invention has a plurality of optical members made of glass materials at least one of which has a temperature characteristic of index of refraction different from that of the other glass material. Further, a temperature control device for controlling a temperature of at least one of the optical members is provided. An imaging characteristic of the projection optical system is controlled. The imaging characteristic to be controlled is a non-linear magnification or curvature of field. The temperature control device sets the temperature to be controlled to a variable target temperature determined in accordance with the imaging characteristic of the projection optical system. An exposing operation for transferring a mask pattern to a photosensitive substrate is started after the temperature of the optical member to be controlled reaches a predetermined allowable range of the target temperature.
摘要:
An apparatus for exposing a pattern, formed on a mask, on each of a plurality of partitioned areas on a photosensitive substrate by a step-and-repeat scheme includes a projection optical system for projecting the pattern of the mask on the photosensitive substrate, a substrate stage for holding the photosensitive substrate and two-dimensionally moving the photosensitive substrate within a plane perpendicular to the optical axis of the projection optical system, a detection unit for projecting a pattern image having a predetermined shape on the photosensitive substrate and photoelectrically detecting light reflected by the photosensitive substrate to detect a position at each of a plurality of points on the photosensitive substrate along the optical axis of the projection optical system, and a measurement unit for, when each of a plurality of measurement points in a partitioned area on which a pattern of the mask is to be exposed next coincides with or approaches the pattern image, detecting an offset amount between an imaging plane of the projection optical system and the next partitioned area along the optical axis during a stepping operation of the substrate stage, wherein the imaging plane and the next partitioned area are relatively moved along the optical axis in accordance with the measured offset amount before the pattern of the mask is exposed on the next partitioned area.
摘要:
Position detecting method and a apparatus detect a position of substrate formed with a diffraction grating mark and a linearly extending stepped edge mark spaced from the diffraction grating. In the method and apparatus, those marks are relatively scanned by light beam, and position of the substrate is detected based on light information generated by both the marks and the scanning position.