Optical Microlithography XVIII 2005
DOI: 10.1117/12.602025
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Characterization of ArF immersion process for production

Abstract: ArF immersion lithography is essential to extend optical lithography. In this study, we characterized the immersion process on production wafers. Key lithographic manufacturing parameters, overlay, CD uniformity, depth of focus (DOF), optical proximity effects (OPE), and defects are reported. Similar device electrical performance between the immersion and the dry wafers assures electrical compatibility with immersion lithography. The yield results on 90-nm Static Random Access Memory (SRAM) chips confirm doubl… Show more

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Cited by 11 publications
(7 citation statements)
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“…We have built electrically functioning product circuits at the 90-, 65-, and 45-nm nodes. The 1 st work was a timely demonstration in 2004 with immersion imaging on the polysilicon layer 42 ; the 2 nd , in 4 critical front-end layers; the most recent node, in hundreds of wafer per day on 12-18 front-end and back-end layers. Figure 13 shows the after-etch image of a 0.151-µm 2 SRAM cell.…”
Section: Status Of Lithography At Tsmcmentioning
confidence: 99%
“…We have built electrically functioning product circuits at the 90-, 65-, and 45-nm nodes. The 1 st work was a timely demonstration in 2004 with immersion imaging on the polysilicon layer 42 ; the 2 nd , in 4 critical front-end layers; the most recent node, in hundreds of wafer per day on 12-18 front-end and back-end layers. Figure 13 shows the after-etch image of a 0.151-µm 2 SRAM cell.…”
Section: Status Of Lithography At Tsmcmentioning
confidence: 99%
“…These feature sizes are extremely challenging with respect to the requirements they demand of the optical components of the toolset [48,49,149]. One of the most promising advances made in recent years is liquid-immersion lithography, which has greatly extended the design rules that can be addressed with the currently used 193 nm ArF excimer laser exposure tools [150][151][152][153][154][155]. In liquid-immersion lithography, a fluid [156][157][158] is introduced between the final lens element and the photoresist-coated wafer.…”
Section: Photolithographymentioning
confidence: 99%
“…With the advent and by now proven success of immersion technology [1,2] a distinct pathway is being paved to utilize the realm of hyper-NA (NA>1.0) lithography. With the increasing NA of the lithographic tools, the incident angles at wafer level grow accordingly.…”
Section: Introduction To High-na Stepandscan Tools Polarization and Immementioning
confidence: 99%