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PhotomaskA photomask is an opaque plate with holes or transparencies that allow light to shine through in a defined pattern. They are commonly used in photolithography. Lithographic photomasks are typically transparent fused silica blanks covered with a pattern defined with a chrome metal absorbing film. Photomasks are used at wavelengths of 365 nm, 248 nm, and 193 nm. Photomasks have also been developed for other forms of radiation such as 157 nm, 13.5 nm (EUV), X-ray and electrons and ions, but these require entirely new materials for the substrate and the pattern film. Additional recommended knowledgeA set of photomasks, each defining a pattern layer in integrated circuit fabrication, is fed into a photolithography stepper or scanner and individually selected for exposure. In double patterning techniques, a photomask would correspond to a subset of the layer pattern. In photolithography for the mass production of integrated circuit devices, the more correct term is usually photoreticle or simply reticle. In the case of a photomask, there is a one-to-one correspondence between the mask pattern and the wafer pattern. This was the standard for the 1:1 mask aligners that were succeeded by steppers and scanners with reduction optics. As used in steppers and scanners, the reticle commonly contains only one layer of the chip. (However, some photolithography fabs utilize reticles with more than one layer patterned onto the same mask). The pattern is projected and shrunk by four or five times onto the wafer surface. To achieve complete wafer coverage, the wafer is repeatedly 'stepped' from position to position under the optical column until full exposure is achieved. Features 150 nm or below in size generally require phase-shifting to enhance the image quality to acceptable values. This can be achieved in many ways, but the two most common methods are to use an attenuated phase-shifting background film on the mask to increase the contrast of small intensity peaks, or to etch the exposed quartz so that the edge between the etched and unetched areas can be used to image nearly zero intensity. In the second case, unwanted edges would need to be trimmed out with another exposure. The former method is attenuated phase-shifting, and is often considered a weak enhancement, requiring special illumination for the most enhancement, while the latter method is known as alternating-aperture phase-shifting, and is the most popular strong enhancement technique. As leading-edge semiconductor features shrink, photomask features which are 4× larger must inevitably shrink as well. This could pose challenges as the absorber film will need to become thinner, and hence less opaque. [1] A recent study by IMEC has found that thinner absorbers degrade image contrast and hence contribute to line-edge roughness, using state-of-the-art photolithography tools. [2] One possibility is to eliminate absorbers altogether and use 'chromeless' masks, relying solely on phase-shifting for imaging. The emergence of immersion lithography has a strong impact on photomask requirements. The commonly used attenuated phase-shifting mask is more sensitive to the higher incidence angles applied in "hyper-NA" lithography, due to the longer optical path through the patterned film. [3] Leading commercial photomask manufacturers, 2003
In October, 2004, DuPont Photomasks was acquired by Toppan, approved by U.S. regulators and merged in May 2005 to became the largest photomask manufacturer. Major chipmakers such as Intel, AMD, IBM, NEC, TSMC, Samsung, Micron Technology, etc., have their own large maskmaking facilities.
The cost to set up a modern 45 nm process mask shop is US$200-500 million, a very high threshold for entering this market. The purchase price of a photomask can range from $1,000 to $100,000 for a single, high end phase shift mask; as many as 30 masks (of varying price) may be required to form a complete mask set. References |
This article is licensed under the GNU Free Documentation License. It uses material from the Wikipedia article "Photomask". A list of authors is available in Wikipedia. |