Abstract: An antireflective coating that contains at least two polymer components and comprises chromophore moieties and transparent moieties is provided. The antireflective coating is useful for providing a single-layer composite graded antireflective coating formed beneath a photoresist layer.

Abstract: An antireflective coating that contains at least two polymer components and comprises chromophore moieties and transparent moieties is provided. The antireflective coating is useful for providing a single-layer composite graded antireflective coating formed beneath a photoresist layer.

Abstract: An antireflective coating that contains at least two polymer components and comprises chromophore moieties and transparent moieties is provided. The antireflective coating is useful for providing a single-layer composite graded antireflective coating formed beneath a photoresist layer.

Abstract: An antireflective coating that contains at least two polymer components and comprises chromophore moieties and transparent moieties is provided. The antireflective coating is useful for providing a single-layer composite graded antireflective coating formed beneath a photoresist layer.

Abstract: A novel arrangement and method for depositing evaporation control agents so as to coat immersion lithographic solutions which are employed on the surface of semiconductor wafers in connection with the etching of the surfaces of the wafer through the intermediary of an immersion lithographic process.

Abstract: A novel arrangement and method for depositing evaporation control agents so as to coat immersion lithographic solutions which are employed on the surface of semiconductor wafers in connection with the etching of the surfaces of the wafer through the intermediary of an immersion lithographic process.

Abstract: The present invention provides a lithographic method and apparatus (e.g., for printing contact holes on a wafer) that use a single mask, multiple exposures, and optimized pupil filtering. The method comprises: providing a mask including pattern features to be transferred to a wafer; transferring a first set of pattern features from the mask to the wafer using a first type of illumination and a first type of pupil filter; and transferring a second set of pattern features from the mask to the wafer using a second type of illumination and a second type of pupil filter.

Abstract: A monolithic optical pellicle and method of making used to protect a photomask during photolithography processing. The monolithic optical pellicle is comprised of a pellicle plate having a recessed central portion integrally formed with a perimeter frame of the pellicle plate such that it is a one-piece optical pellicle. The monolithic optical pellicle comprises a material of sufficient rigidity to minimize distortions in and maximize durability of the pellicle when used in combination with the recessed portion having a thickness that prevents sagging thereof due to applied forces on the resultant monolithic optical pellicle. This recessed central portion is the optical pellicle portion of the present monolithic optical pellicle, while the integral perimeter frame is used to attach the monolithic optical pellicle at the desired stand-off distance to a photomask. The monolithic optical pellicle preferably comprises a material that is transparent to an exposure field at about 157 nm wavelengths.