摘要:
A mask and method of fabricating same are disclosed. In an example, a mask includes a substrate, a reflective multilayer coating disposed over the substrate, an Ag2O absorber layer disposed over the reflective multilayer coating, and a tantalum-containing absorber layer disposed over the Ag2O absorber layer. The tantalum-containing absorber layer is disposed over the Ag2O absorber layer outside a mask image region of the mask, such that the mask image region of the mask is free of the tantalum-containing absorber layer. In an example, the tantalum-containing absorber layer is disposed over the Ag2O absorber layer adjacent to the mask image region.
摘要:
Provided is a photoresist that includes a polymer is free of a aromatic group and a photo acid generator (PAG) that has less than three aromatic groups. In an embodiment, the PAG includes an anion component and a cation component. The anion component has one of the following chemical formulas: R31C—CR21—CR21—CR21—SO3− R31C—CR21—CR21—SO3− R31C—CR21—SO3− R31C—SO3− The cation component has one of the following chemical formulas: Wherein R1 and R2 each represent a chemical compound.
摘要:
Provided is a photoresist that includes a polymer is free of a aromatic group and a photo acid generator (PAG) that has less than three aromatic groups. In an embodiment, the PAG includes an anion component and a cation component. The anion component has one of the following chemical formulas: R31C—CR21—CR21—CR21—SO3− R31C—CR21—CR21—SO3− R31C—CR21—SO3− R31C—SO3− The cation component has one of the following chemical formulas: Wherein R1 and R2 each represent a chemical compound.
摘要:
A reflective mask is described. The mask includes a low thermal expansion material (LTEM) substrate, a conductive layer deposited on a first surface of the LTEM substrate, a stack of reflective multilayers (ML) deposited on a second surface of the LTEM substrate, a capping layer deposited on the stack of reflective ML, a first absorption layer deposited on the first capping layer, a main pattern, and a border ditch. The border ditch reaches to the capping layer, the second absorption layer deposited inside the border ditch, and the second absorption layer contacts the capping layer.
摘要:
A reflective mask is described. The mask includes a low thermal expansion material (LTEM) substrate, a conductive layer deposited on a first surface of the LTEM substrate, a stack of reflective multilayers (ML) deposited on a second surface of the LTEM substrate, a capping layer deposited on the stack of reflective ML, a first absorption layer deposited on the first capping layer, a main pattern, and a border ditch. The border ditch reaches to the capping layer, a second absorption layer deposited inside the border ditch, and the second absorption layer contacts the capping layer. In some instances, the border ditch crosses the capping layer and partially enters the reflective multilayer.
摘要:
A mask and method of fabricating same are disclosed. In an example, a mask includes a substrate, a reflective multilayer coating disposed over the substrate, an Ag2O absorber layer disposed over the reflective multilayer coating, and a tantalum-containing absorber layer disposed over the Ag2O absorber layer. The tantalum-containing absorber layer is disposed over the Ag2O absorber layer outside a mask image region of the mask, such that the mask image region of the mask is free of the tantalum-containing absorber layer. In an example, the tantalum-containing absorber layer is disposed over the Ag2O absorber layer adjacent to the mask image region.
摘要:
A method of patterning an integrated circuit including generating a thermal profile of a reticle is provided. The thermal profile of the reticle may illustrate heat accumulation (e.g., a temperature) in a EUV reticle due an incident EUV radiation beam. The thermal profile may be determined using the pattern density of the reticle. The reticle is irradiated with a radiation beam having an extreme ultraviolet (EUV) wavelength. A thermal control profile may be generated using the thermal profile, which may define a parameter of the lithography process such as, a temperature gradient of a thermal control chuck. The thermal control profile may be downloaded to the EUV lithography tool (e.g., scanner or stepper) for use in a process. A separate thermal control profile may be provided for different reticles.
摘要:
The method of patterning a photosensitive layer includes providing a substrate including a first layer formed thereon, treating the substrate including the first layer with cations, forming a first photosensitive layer over the first layer, patterning the first photosensitive layer to form a first pattern, treating the first pattern with cations, forming a second photosensitive layer over the treated first pattern, patterning the second photosensitive layer to form a second pattern, and processing the first layer using the first and second patterns as a mask.
摘要:
A method for forming a dual damascene including providing a first dielectric insulating layer including a via opening; forming an organic dielectric layer over the first IMD layer to include filling the via opening; forming a hardmask layer over the organic dielectric layer; photolithographically patterning and dry etching the hardmask layer and organic dielectric layer to leave a dummy portion overlying the via opening; forming an oxide liner over the dummy portion; forming a second dielectric insulating layer over the oxide liner to surround the dummy portion; planarizing the second dielectric insulating layer to expose the upper portion of the dummy portion; and, removing the organic dielectric layer to form a dual damascene opening including the oxide liner lining trench line portion sidewalls.
摘要:
A method for forming a patterned target layer from a blanket target layer while employing a blanket photoresist layer in conjunction with an exposure method which is susceptible to a proximity effect employs when exposing the blanket photoresist layer to form an exposed blanket photoresist layer a main latent pattern and a second latent pattern adjacent the main latent pattern. Each patterned photoresist layer formed upon developing the main latent pattern is formed of a first linewidth such that not all of a first portion of the blanket target layer formed therebeneath is etched within an isotropic etchant which is employed for etching the blanket target layer to form the patterned target layer. In contrast, each patterned photoresist layer formed upon developing the second latent pattern is formed of a second linewidth such that all of a second portion of the blanket target layer formed therebeneath is etched within the isotropic etchant which is employed for etching the blanket target layer to form the patterned target layer. The method is particularly useful for efficiently forming a photomask while attenuating a proximity effect.