摘要:
Disclosed concepts include a method of, and program product for, optimizing an illumination profile of a pattern to be formed in a surface of a substrate relative to a given mask. Steps include mathematically representing resolvable feature(s) from the given mask, generating an interference map representation from the previous step, modifying the interference map representation to maximize intensity corresponding to the resolvable features, and determining assist feature size(s) such that intensity side lobes do not print.
摘要:
Model OPC is developed based on eigen decomposition of an aerial image expected to be produced by a mask pattern on a surface of a resist. With the eigen decomposition method the aerial image intensity distribution around a point (x, y) is accurately described in the model. A scalar approach may be used in the eigen decomposition model which treats the light wave through the mask as a scalar quantity. A eigen decomposition alternatively may use a vector approach which utilizes a vector to describe the light wave and the pupil function. A predicted SPIF may be generated from the aerial image which may be used to verify the mask modeling process by comparing the predicted SPIF to an experimentally determined SPIF. The model OPC, once calibrated, may be used to evaluate performance of a mask and refine features of the mask.
摘要:
A method of generating a mask design having optical proximity correction features disposed therein. The methods includes the steps of obtaining a desired target pattern having features to be imaged on a substrate; determining a first interference map based on the target pattern, which defines areas of constructive interference between at least one of the features to be imaged and a field area adjacent the at least one feature; placing a first set of assist features having a first phase in the mask design based on the areas of constructive interference defined by the first interference map; determining a second interference map based on the first set of assist features, which defines areas of constructive interference between assist features of the first set of assist features and a field area adjacent at least one of the assist features of the first set of assist features; and placing a second set of assist features having a second phase in the mask design based on the areas of constructive interference defined by the second interference map, wherein the first phase does not equal the second phase.
摘要:
A method of generating a mask having optical proximity correction features. The method includes the steps of: (a) obtaining a desired target pattern having features to be imaged on a substrate; (b) determining a first focus setting to be utilized when imaging the mask; (c) determining a first interference map based on the target pattern and the first focus setting; (d) determining a first seeding site representing the optimal placement of an assist feature within the mask relative to a feature to be imaged on the basis of the first interference map; (e) selecting a second focus setting which represents a predefined amount of defocus relative to the first focus setting; (f) determining a second interference map based on the target pattern and the second focus setting; (g) determining a second seeding site representing the optimal placement of an assist feature within the mask relative to the feature to be imaged on the basis of the second interference map; and (h) generating an assist feature having a shape which encompasses both the first seeding site and the second seeding site.
摘要:
A method of generating a mask for printing a pattern including a plurality of features. The method includes the steps of depositing a layer of transmissive material having a predefined percentage transmission on a substrate; depositing a layer of opaque material on the transmissive material; etching a portion of the substrate, the substrate being etched to a depth based on an etching selectivity between the transmissive layer and the substrate; exposing a portion of the transmissive layer by etching the opaque material; etching the exposed portion of the transmissive layer so as to expose an upper surface of the substrate; where the exposed portions of the substrate and the etched portions of the substrate exhibit a predefined phase shift relative to one another with respect to an illumination signal.
摘要:
A method of forming a mask having optical proximity correction features, which includes the steps of obtaining a target pattern of features to be imaged, expanding the width of the features to be imaged, modifying the mask to include assist features which are placed adjacent the edges of the features to be imaged, where the assist features have a length corresponding to the expanded width of the features to be imaged, and returning the features to be imaged from the expanded width to a width corresponding to the target pattern.
摘要:
A method of generating a mask design having optical proximity correction features disposed therein. The methods includes the steps of obtaining a desired target pattern having features to be imaged on a substrate; determining an interference map based on the target pattern, the interference map defining areas of constructive interference and areas of destructive interference between at least one of the features to be imaged and a field area adjacent the at least one feature; and placing assist features in the mask design based on the areas of constructive interference and the areas of destructive interference.
摘要:
A method for optically transferring a lithographic pattern corresponding to an integrated circuit utilizing a high transmission attenuated phase-shift mask onto a semiconductor substrate by use of an optical exposure tool. The method comprising the steps of generating a diffraction pattern corresponding to the lithographic pattern, where the diffraction pattern indicates a plurality of spatial frequency components corresponding to the lithographic pattern; determining which of the spatial frequency components need to be captured by a lens in the optical exposure tool in order to accurately reproduce the lithographic pattern; determining a set of illumination conditions required for the optical exposure tool to capture the spatial frequency components necessary for accurately reproducing the lithographic pattern; and illuminating the high transmission attenuated phase-shift mask with this set of illumination conditions.
摘要:
A photolithography mask for optically transferring a pattern formed in the mask onto a substrate and for negating optical proximity effects. The mask includes a plurality of resolvable features to be printed on the substrate, and at least one non-resolvable optical proximity correction feature, where the non-resolvable optical proximity correction feature is a phase-edge.