Disclosed is a pellicle for extreme ultraviolet (EUV) lithography. The pellicle may include: a support layer pattern which is formed by etching a support layer; a pellicle layer which is formed on the support layer pattern; and an etching stop layer pattern which is formed between the support layer pattern and the pellicle layer and formed by etching an etching stop layer of stopping etching when the support layer is etched. Thus, there is provided a pellicle for EUV photomask, which maintains high transmittance with the minimum thickness for EUV exposure light, and is excellent in mechanical strength and thermal characteristics.

Provided are a pellicle for a photomask, which protects the photomask from external contamination and an exposure apparatus including the pellicle for the photomask. The pellicle for the photomask includes a pellicle membrane provided spaced apart from the photomask. The pellicle membrane includes a semiconductor having a two-dimensional (2D) crystalline structure.

Provided are a pellicle for a photomask, which protects the photomask from external contamination and an exposure apparatus including the pellicle for the photomask. The pellicle for the photomask includes a pellicle membrane provided spaced apart from the photomask. The pellicle membrane includes a semiconductor having a two-dimensional (2D) crystalline structure.

An optical mask has a first pellicle attached. The optical mask is inspected with the first pellicle in place using first wavelengths of electromagnetic radiation. The first pellicle is replaced with a second pellicle. The first pellicle only allows the first wavelengths of electromagnetic radiation to pass, and the second pellicle allows second wavelengths that are shorter than the first wavelengths to pass. A photoresist is exposed using the optical mask with the second pellicle in place. The second pellicle is replaced with the first pellicle. The optical mask is again inspected with the first pellicle in place using the first wavelengths of electromagnetic radiation.

An optical mask has a first pellicle attached. The optical mask is inspected with the first pellicle in place using first wavelengths of electromagnetic radiation. The first pellicle is replaced with a second pellicle. The first pellicle only allows the first wavelengths of electromagnetic radiation to pass, and the second pellicle allows second wavelengths that are shorter than the first wavelengths to pass. A photoresist is exposed using the optical mask with the second pellicle in place. The second pellicle is replaced with the first pellicle. The optical mask is again inspected with the first pellicle in place using the first wavelengths of electromagnetic radiation.

A reticle used for collecting information for image-error compensation is provided. The reticle includes a first black border structure and a second black border structure formed over a substrate. The first and second black borders are concentric with a center of the substrate. The reticle further includes a first image structure and a second image structure formed over the substrate. The first and second image structures each has patterns representing features to be patterned on a semiconductor wafer. In a direction away from the center of the substrate, the second image structure, the second black border structure, the first image structure and the first black border structure are arranged in order.

Structures of a pellicle-mask structure are provided. The pellicle-mask structure includes a mask substrate, a pellicle frame over the mask substrate. The pellicle frame includes a side portion with an inside surface and an outside surface opposite to each other. The pellicle-mask structure also includes a vent structure in the side portion and connecting the inside surface and the outside surface, and a pellicle membrane over the pellicle frame. The pellicle-mask structure further includes a pellicle membrane adhesive between the pellicle membrane and the pellicle frame, and a first heat-dissipating filler in the pellicle membrane adhesive.

Structures of a pellicle-mask structure are provided. The pellicle-mask structure includes a mask substrate, a pellicle frame over the mask substrate. The pellicle frame includes a side portion with an inside surface and an outside surface opposite to each other. The pellicle-mask structure also includes a vent structure in the side portion and connecting the inside surface and the outside surface, and a pellicle membrane over the pellicle frame. The pellicle-mask structure further includes a pellicle membrane adhesive between the pellicle membrane and the pellicle frame, and a first heat-dissipating filler in the pellicle membrane adhesive.

A support frame for a pellicle, in which a pellicle film is adhered to the front surface of an aluminum-alloy frame body, and a transparent substrate is adhered to the rear surface of the frame body. A recessed groove is formed in the rear surface of the frame body, the recessed groove extending along the periphery of the frame body, and a vent hole is formed from the outer peripheral surface of the frame body to the inner surface of the recessed groove. With this configuration, deformation of the support frame can be suppressed when the support frame is removed from the transparent substrate.

A support frame for a pellicle, in which a pellicle film is adhered to the front surface of an aluminum-alloy frame body, and a transparent substrate is adhered to the rear surface of the frame body. A recessed groove is formed in the rear surface of the frame body, the recessed groove extending along the periphery of the frame body, and a vent hole is formed from the outer peripheral surface of the frame body to the inner surface of the recessed groove. With this configuration, deformation of the support frame can be suppressed when the support frame is removed from the transparent substrate.