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Scaling of laser produced plasma UTA emission down to 3 nm for next generation lithography and short wavelength imaging

机译：激光产生的等离子体UTA发射的比例缩小至3 nm，用于下一代光刻和短波长成像

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An engineering prototype high average power 13.5-nm source has been shipped to semiconductor facilities to permit the commencement of high volume production at a 100 W power level in 2011. In this source, UTA (unresolved transition array) emission of highly ionized Sn is optimized for high conversion efficiency and full recovery of the injected fuel is realized through ion deflection in a magnetic field. By use of a low-density target, satellite emission is suppressed and full ionization attained with short pulse CO2 laser irradiation. The UTA is scalable to shorter wavelengths, and Gd is shown to have similar conversion efficiency to Sn (13.5 nm) at a higher plasma temperature, with a narrow spectrum centered at 6.7 nm, where a 70% reflectivity mirror is anticipated. Optimization of short pulse CO2 laser irradiation is studied, and further extension of the same method is discussed, to realize 100 W average power down to a wavelength of 3 nm

机译：一种工程原型高平均功率13.5 nm光源已被运送到半导体设施，以允许在2011年以100 W的功率水平开始大批量生产。在这种光源中，优化了高电离Sn的UTA（未解析过渡阵列）发射通过磁场中的离子偏转实现高转换效率和完全回收喷射燃料的目的。通过使用低密度靶，可以抑制卫星发射，并通过短脉冲CO2激光照射实现完全电离。 UTA可扩展至更短的波长，并且在较高的等离子体温度下，Gd显示出与Sn（13.5 nm）相似的转换效率，窄光谱集中在6.7 nm，预计反射率将达到70％。研究了短脉冲CO2激光照射的优化，并讨论了相同方法的进一步扩展，以实现低至3 nm波长的100 W平均功率

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Li Bowen; Endo Akira; OGorman Colm; Otsuka Takamitsu; Cummins T. (Thomas); Donnelly Tony; Kilbane Deirdre; Dunne Padraig; OSullivan Gerry; Jiang Weihua; Higashiguchi Takeshi; Yugami Noboru;
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正文语种 {"code":"en","name":"English","id":9}
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专利

1. Characteristics of ion emission from plasma produced by high-energy short-wavelength (438 nm) laser radiation [J] . Wolowski J., Badziak J., Boody FP., Plasma physics and controlled fusion . 2003,第7期

机译：高能短波（438 nm）激光辐射产生的等离子体的离子发射特性
2. Optimizing 13.5 nm laser-produced tin plasma emission as a function of laser wavelength [J] . J. White, P. Dunne, P. Hayden, Applied Physics Letters . 2007,第18期

机译：根据激光波长优化13.5 nm激光产生的锡等离子体的发射
3. Short-wavelength out-of-band EUV emission from Sn laser-produced plasma [J] . Torretti F., Schupp R., Kurilovich D., Journal of Physics, B. Atomic, Molecular and Optical Physics: An Institute of Physics Journal . 2018,第4期

机译：SN激光产生的等离子体的短波长波长带外EUV排放
4. Scaling of laser produced plasma UTA emission down to 3 nm for next generation lithography and short wavelength imaging [C] . Bowen Li, Akira Endo, Takamitsu Otsuka, Advances in x-ray/EUV optics and components VI . 2011

机译：激光产生的等离子体UTA发射的比例缩小至3 nm，用于下一代光刻和短波长成像
5. Studies of extreme ultraviolet emission from laser produced plasmas, as sources for next generation lithography. [D] . Cummins, Thomas. 2014

机译：研究激光产生的等离子体产生的极紫外线，作为下一代光刻的来源。
6. Excitation wavelength dependence of water-window line emissions from boron-nitride laser-produced plasmas [O] . M. Crank, S. S. Harilal, S. M. Hassan, -1

机译：氮化硼激光产生等离子体的水窗线发射的激发波长依赖性
7. Scaling of laser produced plasma UTA emission down to 3 nm for next generation lithography and short wavelength imaging [O] . Li, Bowen, Endo, Akira, Ou27Gorman, Colm, 2011

机译：对于下一代光刻和短波长成像，激光的缩放产生的等离子体UTa发射低至3nm
8. Short-Wavelength Infrared Line Emission in a Laser-Produced Oxygen Plasma [R] . Lurie, J. B., Miller, S. M., Blumberg, W. A. M. 1985

机译：激光产生的氧等离子体中的短波红外线发射

Scaling of laser produced plasma UTA emission down to 3 nm for next generation lithography and short wavelength imaging

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