An extreme ultraviolet mask, comprising an absorber having an index of refraction ranging from 0.87 to 1.02, an extinction coefficient ranging from 0.065 to 0.085, and a thickness ranging from 33.5 nm to 43.5 nm.

Phase shift masks for an extreme ultraviolet lithography process includes a substrate, a reflection layer on the substrate, a capping layer on the reflection layer, and phase shift patterns on the capping layer. Each of the phase shift patterns may include a lower absorption pattern on the capping layer and an upper absorption pattern on the lower absorption pattern. A refractive index of the upper absorption pattern may be higher than a refractive index of the lower absorption pattern, and a thickness of the upper absorption pattern is smaller than a thickness of the lower absorption pattern.

A reflective mask includes a substrate, a reflective multilayer disposed over the substrate, a capping layer disposed over the reflective multilayer, an intermediate layer disposed over the capping layer, an absorber layer disposed over the intermediate layer, and a cover layer disposed over the absorber layer. The intermediate layer includes a material having a lower hydrogen diffusivity than a material of the capping layer.

Extreme ultraviolet (EUV) mask blanks, methods for their manufacture and production systems therefor are disclosed. The EUV mask blanks comprise a substrate; a multilayer stack of reflective layers on the substrate; a capping layer on the multilayer stack of reflecting layers; and an absorber layer on the capping layer, the absorber layer comprising an alloy selected from an alloy of tantalum, iridium and antimony; an alloy of iridium and antimony; and an alloy of tantalum, ruthenium and antimony.

A blank mask including a transparent substrate and a light shielding film disposed on the transparent substrate, wherein the light shielding film includes a transition metal and at least one selected from the group consisting of oxygen and nitrogen, and wherein a surface of the light shielding film has a first contact angle of 40° to 45° measured by using diiodo-methane as a first liquid contacting the surface of the light shielding film, is disclosed.

A reflective mask includes a substrate, a reflective multilayer disposed over the substrate, a capping layer disposed over the reflective multilayer, an intermediate layer disposed over the capping layer, an absorber layer disposed over the intermediate layer, and a cover layer disposed over the absorber layer. The absorber layer includes one or more layers of an Ir based material, a Pt based material or a Ru based material.

Methods of forming structures including a photoresist absorber layer and structures including the absorber layer underlying an extreme ultraviolet (EUV) photoresist are disclosed. Exemplary methods include forming the photoresist absorber layer or underlayer with an oxide of a high atomic number (z) element having an EUV cross section (σ.sub.α) of greater than 2×10.sup.6 cm.sup.2/mol and then forming the EUV photoresist over the high-z underlayer.

Extreme ultraviolet (EUV) mask blanks, methods of forming EUV mask blanks and production systems therefor are disclosed. The EUV mask blanks comprise a multilayer reflective stack on a substrate. The multilayer reflective stack comprises a trilayer film including a first film, a second film, and a third film. Some EUV mask blanks include an interface layer on one or more of the first film, the second film and the third film. EUV mask blanks described herein have low Z.sub.eff and high reflectance over large bandwidth of reflection angle, thereby minimizing the M3D effect, especially for high-NA EUV scanners.

Extreme ultraviolet (EUV) mask blanks, methods of forming EUV mask blanks and production systems therefor are disclosed. The EUV mask blanks comprise a multilayer reflective stack on a substrate. The multilayer reflective stack comprises a trilayer film including a first film, a second film, and a third film. Some EUV mask blanks include an interface layer on one or more of the first film, the second film and the third film. EUV mask blanks described herein have low Z.sub.eff and high reflectance over large bandwidth of reflection angle, thereby minimizing the M3D effect, especially for high-NA EUV scanners.

A reflective mask blank includes a substrate, a reflective multilayer (RML) disposed on the substrate, a capping layer disposed on the reflective multilayer, and an absorber layer disposed on the capping layer. The absorber layer has length or width dimensions smaller than the capping layer, and part of the capping layer is exposed by the absorber layer. The dimension of the absorber layer and the hard mask layer ranges between 146 cm to 148 cm. The dimensions of the substrate, the RML, and the capping layer range between 150 cm to 152 cm.