Provided is a mask blank (100) for manufacturing a phase shift mask, the mask blank enabling formation of a high-precision and fine pattern on a light shielding film. The mask blank (100) in which a phase shift film (2) made of a material containing silicon, a light shielding film (3) made of a material containing chromium, oxygen, and carbon, and a hard mask film (4) made of a material containing one or more elements selected from silicon and tantalum are provided in this order on a transparent substrate (1) is characterized in that the light shielding film (3) is a single layer film having a composition gradient portion with an increased oxygen content at a surface on the hard mask film (4) side and in a region close thereto, the light shielding film (3) has a maximum peak of N1s narrow spectrum obtained by analysis of X-ray photoelectron spectroscopy of lower detection limit or less, and a part of the light shielding film (3) excluding the composition gradient portion has a chromium content of 50 atom % or more and has a maximum peak of Cr2p narrow spectrum obtained by analysis of X-ray photoelectron spectroscopy at binding energy of 574 eV or less.

Provided is a mask blank (100) for manufacturing a phase shift mask, the mask blank enabling formation of a high-precision and fine pattern on a light shielding film. The mask blank (100) in which a phase shift film (2) made of a material containing silicon, a light shielding film (3) made of a material containing chromium, oxygen, and carbon, and a hard mask film (4) made of a material containing one or more elements selected from silicon and tantalum are provided in this order on a transparent substrate (1) is characterized in that the light shielding film (3) is a single layer film having a composition gradient portion with an increased oxygen content at a surface on the hard mask film (4) side and in a region close thereto, the light shielding film (3) has a maximum peak of N1s narrow spectrum obtained by analysis of X-ray photoelectron spectroscopy of lower detection limit or less, and a part of the light shielding film (3) excluding the composition gradient portion has a chromium content of 50 atom % or more and has a maximum peak of Cr2p narrow spectrum obtained by analysis of X-ray photoelectron spectroscopy at binding energy of 574 eV or less.

A blank mask including a transparent substrate and a light shielding film disposed on the transparent substrate, wherein the light shielding film comprises a transition metal and at least one selected from the group consisting of oxygen and nitrogen, and wherein when an optical density of the light shielding film is measured ten times by a light with a wavelength of 193 nm, a standard deviation of measured optical density is 0.009 or less, is disclosed.

A blank mask including a transparent substrate and a light shielding film disposed on the transparent substrate, wherein the light shielding film comprises a transition metal and at least one selected from the group consisting of oxygen and nitrogen, and wherein when an optical density of the light shielding film is measured ten times by a light with a wavelength of 193 nm, a standard deviation of measured optical density is 0.009 or less, is disclosed.

Apparatus, methods and are disclosed for measuring refractive index of an absorber material used in EUV phase shift masks. The method and apparatus utilize a reference measurement and as series of reflectance measurements at a range of EUV wavelengths and thickness values for the absorber material to determine the refractive index of the absorber material.

A halftone mask, a manufacturing method of a display panel, and an ultraviolet mask are disclosed. The halftone mask includes a substrate, a plurality of light-blocking parts, and a plurality of semi-transmissive parts. Wherein, the semi-transmissive parts correspond to a thinned patterning area of a first target object and a hollowed patterning area of a second target object.

A halftone mask, a manufacturing method of a display panel, and an ultraviolet mask are disclosed. The halftone mask includes a substrate, a plurality of light-blocking parts, and a plurality of semi-transmissive parts. Wherein, the semi-transmissive parts correspond to a thinned patterning area of a first target object and a hollowed patterning area of a second target object.

A mask blank includes a substrate and a thin film formed on the substrate, the thin film including hafnium and oxygen. A total content of hafnium and oxygen of the thin film is 95 atom % or more. An oxygen content of the thin film is 60 atom % or more. An X-ray diffraction profile of a diffraction angle 2θ between 25 degrees and 35 degrees has a maximum diffraction intensity in a diffraction angle 2θ between 28 degrees and 29 degrees, the X-ray diffraction profile being obtained by an X-ray diffraction analysis with an Out-of-Plane measurement with respect to the thin film.

Provided is a phase shift mask blank including a substrate, and a phase shift film thereon, the phase shift film composed of a material containing silicon and nitrogen and free of a transition metal, exposure light being KrF excimer laser, the phase shift film consisting of a single layer or a plurality of layers, the single layer or each of the plurality of layers having a refractive index n of at least 2.5 and an extinction coefficient k of 0.4 to 1, with respect to the exposure light, and the phase shift film having a phase shift of 170 to 190° and a transmittance of 4 to 8%, with respect to the exposure light, and a thickness of up to 85 nm.

Provided is a phase shift mask blank including a substrate, and a phase shift film thereon, the phase shift film composed of a material containing silicon and nitrogen and free of a transition metal, exposure light being KrF excimer laser, the phase shift film consisting of a single layer or a plurality of layers, the single layer or each of the plurality of layers having a refractive index n of at least 2.5 and an extinction coefficient k of 0.4 to 1, with respect to the exposure light, and the phase shift film having a phase shift of 170 to 190° and a transmittance of 4 to 8%, with respect to the exposure light, and a thickness of up to 85 nm.