Optical Microlithography XXI 2008
DOI: 10.1117/12.771622
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Studies of high index immersion lithography

Abstract: High index immersion lithography is one of the candidates for next generation lithography technology following water immersion lithography. This technology may be most attractive for the industry since it is effective in raising resolution without seriously changing the chip making processes. This motivates us to continue to study further NA expansion although there are many challenges with respect to either high index fluid development or high index lens material development. In this paper, the current status… Show more

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Cited by 3 publications
(9 citation statements)
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“…However, through newly developed optimization processes, a Strehl intensity of 0.94 should be achievable. [8] Although transmission and intrinsic birefringence are significant challenges with these new lens materials, they are not perceived as "showstoppers." As shown in Fig.…”
Section: High Index Immersionmentioning
confidence: 99%
“…However, through newly developed optimization processes, a Strehl intensity of 0.94 should be achievable. [8] Although transmission and intrinsic birefringence are significant challenges with these new lens materials, they are not perceived as "showstoppers." As shown in Fig.…”
Section: High Index Immersionmentioning
confidence: 99%
“…Absorption by the fluid also increases the propensity for radiation damage and heating of the fluid. Therefore, an ideal fluid should possess a low absorption coefficient, a low thermo-optic coefficient (d n /d T ), high specific heat capacity, high thermal conductivity, and low viscosity in order to maintain stable optical properties and prevent focus errors and spherical aberrations. ,,, For example, the optical path difference between two rays should not exceed a quarter wavelength, requiring δ n λ cos θ 4 t wherein δ n is the change in the refractive index and t is the thickness of the fluid layer . This relationship is used to define the requirements for local , and bulk temperature stability of the immersion fluid, pressure stability, and fluid thickness (i.e., the gap height between the last lens element and the imaging layer)…”
Section: Materials For 193 Nm Water Immersion Lithographymentioning
confidence: 99%
“…At the limit of water immersion lithography (∼1.3−1.35 NA), 55 nm half-pitch features can be printed at a k 1 of 0.38 (required for aggressive dual-orientation patterning) and 40 nm half-pitch features with a k 1 of 0.28 (required for aggressive single-orientation patterning) (see Table ). In order to extend 193 nm immersion lithography to 45 nm ( k 1 = 0.38) and 32 nm ( k 1 = 0.28) half-pitch, an NA of about 1.7 is required (see Table ). , With a planar last lens element, the NA of an immersion lithography tool is limited by the lowest refractive index in the optical stack (i.e., last lens element, immersion fluid, topcoat, and photoresist). In 193 nm water immersion lithography, the immersion fluid presents the first limiting refractive index ( n water ≈ 1.44, n LLE ≈ 1.50−1.56, n topcoat ≈ 1.5−1.66, n resist ≈ 1.7) .…”
Section: Materials For 193 Nm High-index Immersion Lithographymentioning
confidence: 99%
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“…Due to not only the requirement of resolution but also the demands for the throughput or economical considerations, it will be a challenge to pick out the most suitable process in order to meet the generation progress. There are various limitations for these candidates, for example, the availability of hyper-NA fluid and the corresponding lens material for the immersion tool [13,14]. As referred to the EUV technology, the development for the optics including the mask or the mirrors, and the source power along with the throughput will dominate the lean-in of production.…”
Section: Introductionmentioning
confidence: 99%