Abstract: A mask for use in measuring flare produced by a projection lens of a photolithography system, a method of manufacturing the mask, a method of identifying a flare-affected region on a wafer, and a method for correcting for the flare to produce photoresist patterns of desired line widths are provided. A first photolithographic process is performed to form photoresist patterns on a test wafer using a mask including a light shielding region having a plurality of light transmission patterns and a light transmission region, and the photoresist patterns formed by light passing through the light transmission patterns of the light shielding region are compared to the photoresist patterns formed by light passing through the light transmission region. The amount of flare produced by the projection lens is quantified using the results of the comparison, and thus it is possible to identify a flare-affected region on the wafer.

Abstract: Provided are a photomask, a method for manufacturing the photomask and a method for measuring optical characteristics of a wafer exposure system, the measuring method using the photomask during manufacture. The photomask includes a substrate and a measuring pattern including a light opaque region pattern formed on the substrate and a plurality of light transmitting region patterns that are formed in regions divided by the light opaque region pattern and provoke phase shifts to provide phase differences to light transmitted through light transmitting regions. Precise measurements of the degree of a focus and lens aberrations of an exposure system using the photomask are obtained.

Abstract: Provided are a photomask, a method for manufacturing the photomask and a method for measuring optical characteristics of a wafer exposure system, the measuring method using the photomask during manufacture. The photomask includes a substrate and a measuring pattern including a light opaque region pattern formed on the substrate and a plurality of light transmitting region patterns that are formed in regions divided by the light opaque region pattern and provoke phase shifts to provide phase differences to light transmitted through light transmitting regions. Precise measurements of the degree of a focus and lens aberrations of an exposure system using the photomask are obtained.

Abstract: Provided are a photomask, a method for manufacturing the photomask and a method for measuring optical characteristics of a wafer exposure system, the measuring method using the photomask during manufacture. The photomask includes a substrate and a measuring pattern including a light opaque region pattern formed on the substrate and a plurality of light transmitting region patterns that are formed in regions divided by the light opaque region pattern and provoke phase shifts to provide phase differences to light transmitted through light transmitting regions. Precise measurements of the degree of a focus and lens aberrations of an exposure system using the photomask are obtained.

Abstract: A wave guided alternating phase shift mask (WGAPSM) includes a substrate transparent to light from an exposure light source and a waveguide pattern formed on the substrate to define a plurality of transparent regions that are regularly arranged. The transparent regions defined by the waveguide pattern include a plurality of shift transparent regions formed of recess regions of the substrate and a plurality of non-shift transparent regions alternatively arranged with the shift transparent regions. The provided WGAPSM minimizes an error of critical dimension difference and an X-effect while securing a large process margin and not generating opaque defects. A fabricating method for the provided WGAPSM is also provided.

Abstract: A mask for use in measuring flare produced by a projection lens of a photolithography system, a method of manufacturing the mask, a method of identifying a flare-affected region on a wafer, and a method for correcting for the flare to produce photoresist patterns of desired line widths are provided. A first photolithographic process is performed to form photoresist patterns on a test wafer using a mask including a light shielding region having a plurality of light transmission patterns and a light transmission region, and the photoresist patterns formed by light passing through the light transmission patterns of the light shielding region are compared to the photoresist patterns formed by light passing through the light transmission region. The amount of flare produced by the projection lens is quantified using the results of the comparison, and thus it is possible to identify a flare-affected region on the wafer.

Abstract: A mask for use in measuring flare produced by a projection lens of a photolithography system, a method of manufacturing the mask, a method of identifying a flare-affected region on a wafer, and a method for correcting for the flare to produce photoresist patterns of desired line widths are provided. A first photolithographic process is performed to form photoresist patterns on a test wafer using a mask including a light shielding region having a plurality of light transmission patterns and a light transmission region, and the photoresist patterns formed by light passing through the light transmission patterns of the light shielding region are compared to the photoresist patterns formed by light passing through the light transmission region. The amount of flare produced by the projection lens is quantified using the results of the comparison, and thus it is possible to identify a flare-affected region on the wafer.

Abstract: A wave guided alternating phase shift mask (WGAPSM) includes a substrate transparent to light from an exposure light source and a waveguide pattern formed on the substrate to define a plurality of transparent regions that are regularly arranged. The transparent regions defined by the waveguide pattern include a plurality of shift transparent regions formed of recess regions of the substrate and a plurality of non-shift transparent regions alternatively arranged with the shift transparent regions. The provided WGAPSM minimizes an error of critical dimension difference and an X-effect while securing a large process margin and not generating opaque defects. A fabricating method for the provided WGAPSM is also provided.

Abstract: Provided are a photomask, a method for manufacturing the photomask and a method for measuring optical characteristics of a wafer exposure system, the measuring method using the photomask during manufacture. The photomask includes a substrate and a measuring pattern including a light opaque region pattern formed on the substrate and a plurality of light transmitting region patterns that are formed in regions divided by the light opaque region pattern and provoke phase shifts to provide phase differences to light transmitted through light transmitting regions. Precise measurements of the degree of a focus and lens aberrations of an exposure system using the photomask are obtained.

Abstract: A mask for use in measuring flare produced by a projection lens of a photolithography system, a method of manufacturing the mask, a method of identifying a flare-affected region on a wafer, and a method for correcting for the flare to produce photoresist patterns of desired line widths are provided. A first photolithographic process is performed to form photoresist patterns on a test wafer using a mask including a light shielding region having a plurality of light transmission patterns and a light transmission region, and the photoresist patterns formed by light passing through the light transmission patterns of the light shielding region are compared to the photoresist patterns formed by light passing through the light transmission region. The amount of flare produced by the projection lens is quantified using the results of the comparison, and thus it is possible to identify a flare-affected region on the wafer.