2005
DOI: 10.1117/12.599544
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EUV sources for EUV lithography in alpha-, beta-, and high volume chip manufacturing: an update on GDPP and LPP technology

Abstract: In the paper we report about the progress made at XTREME technologies in the development of EUV sources based on gas discharge produced plasma (GDPP) technologies and laser produced plasma (LPP) technologies.First prototype xenon GDPP sources of the type XTS 13-35 based on the Z-pinch principle with 35 W power in 2π sr have been integrated into micro-exposure tools from Exitech, UK. Specifications of the EUV sources and experience of integration as well as data about component and optics lifetime are presented… Show more

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Cited by 15 publications
(11 citation statements)
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“…In spite of our pushing a Sn LPP for many years, regrettably, there was no progress in LPP power after a report of 22 W into 2π sr by CEO in 2,003 [5]. However, this stagnation of LPP power was what we anticipated at that time because we did not hear new proposals of target delivery.…”
Section: Introductionmentioning
confidence: 86%
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“…In spite of our pushing a Sn LPP for many years, regrettably, there was no progress in LPP power after a report of 22 W into 2π sr by CEO in 2,003 [5]. However, this stagnation of LPP power was what we anticipated at that time because we did not hear new proposals of target delivery.…”
Section: Introductionmentioning
confidence: 86%
“…As seen in the above discussion, the plasma is required to have the opacity τ opa larger than 0.5 for the power P IF larger than 100 W. There is a report [14] that calculated transition cross section of radiation of a Sn plasma at the peak emission is σ(ν)=2E-17cm 2 for Sn at13-14nm ---- (5).…”
Section: -1 Parameters For a High Powermentioning
confidence: 98%
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“…This corresponds to an IF power of 2.3 W and CE of 1% [22]. In following year, 1.2 kW laser power LPP with xenon target produced 10 W EUV power at 2% bandwidth, and 3.3 W IF power with a CE of 1% [39].…”
Section: Euv Sourcementioning
confidence: 98%
“…In 2005, a DPP EUV source produced 200 W of EUV radiation at a 2π sr solid angle with an IF power of 25.7 W (CE = 1.0%) using xenon, and a 400 W EUV 2π sr (CE = 2.0%) with 51.4 IF power using tin [39]. In the following year, 800 W in 2π sr from a tin DPP EUV source in burst operation, corresponding to 70-120 W IF power was reported, but the required electrode lifetimes could not meet [40].…”
Section: Euv Sourcementioning
confidence: 99%