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Systematic investigation of self-absorption property and conversion efficiency of 6.7-nm extreme ultraviolet sources

机译：6.7 nm极紫外光源的自吸收性能和转换效率的系统研究

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We have demonstrated rare-earth plasma extreme ultraviolet sources at 6.7 nm to investigate the spectral behavior and the conversion efficiencies to different laser wavelength and the initial target densities. The conversion efficiency was maximized to be 0.9% at laser intensity of 7 × 1012 W/cm2 at its wavelength of 1064 nm, which is attributed to the minimum self-absorption effect by use of the low initial density target, together with the narrow spectrum. It is important to use a low initial density target and to produce low electron density plasmas for efficient EUV sources using the high-Z targets.

机译：我们已经证明了在6.7 nm处的稀土等离子体极端紫外线源，以研究光谱行为以及到不同激光波长和初始目标密度的转换效率。在波长为1064 nm的激光强度为7×1012 W / cm2的情况下，转换效率最大为0.9％，这归因于使用低初始密度靶以及窄光谱产生的最小自吸收效应。重要的是使用低初始密度靶，并为使用高Z靶的高效EUV源产生低电子密度等离子体。

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Otsuka Takamitsu; White John; Kilbane Deirdre; Higashiguchi Takeshi; Yugami Noboru; Yatagai Toyohiko; Jiang Weihua; Endo Akira; Dunne Padraig; OSullivan Gerry;
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年度 2010
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正文语种 {"code":"en","name":"english","id":9}
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1. Systematic investigation of self-absorption and conversion efficiency of 6.7 nm extreme ultraviolet sources [J] . Takamitsu Otsuka, Deirdre Kilbane, Takeshi Higashiguchi, Applied Physics Letters . 2010,第23期

机译：系统研究6.7 nm极端紫外线源的自吸收和转换效率
2. Theoretical investigation of the spectrum and conversion efficiency of short wavelength extreme-ultraviolet light sources based on terbium plasmas [J] . Akira Sasaki, Katsunobu Nishihara, Atsushi Sunahara, Applied Physics Letters . 2010,第23期

机译：基于ter等离子体的短波极紫外光源的光谱和转换效率的理论研究
3. A new method for determining the efficiency of laser radiation conversion into 13.5 +/- 0.3 nm radiation in laser-plasma extreme ultraviolet sources [J] . Domracheva IV, Petrenko MV, Stepanova ZA, Technical physics letters: Letters to the Russian journal of applied physics . 2007,第11期

机译：确定激光等离子极紫外光源中将激光辐射转换为13.5 +/- 0.3 nm辐射的效率的新方法
4. Effects of pre-pulses on extreme ultraviolet conversion efficiency in laser-produced tin plasmas [C] . Freeman J. R., Coons R. W., Harilal S. S., 2011 Abstracts IEEE International Conference on Plasma Science . 2011

机译：预脉冲对激光产生的锡等离子体中极紫外转换效率的影响
5. Intense capillary discharge plasma extreme-ultraviolet sources for extreme-ultraviolet lithography and other extreme-ultraviolet imaging applications. [D] . Klosner, Marc Alexander. 1998

机译：强烈的毛细管放电等离子体极紫外光源，用于极紫外光刻和其他极紫外成像应用。
6. Graphene Metamaterials for Intense Tunable and Compact Extreme Ultraviolet and X‐Ray Sources [O] . Andrea Pizzi, Gilles Rosolen, Liang Jie Wong, 2020

机译：用于强烈可调和紧凑的极端紫外线和X射线源的石墨烯超材料
7. Systematic investigation of self-absorption property and conversion efficiency of 6.7-nm extreme ultraviolet sources [O] . Otsuka Takamitsu, White John, Kilbane Deirdre, 2010

机译：系统研究6.7nm极紫外光源的自吸收特性和转换效率
8. Optimisation of Narrow Band Extreme UV Conversion Efficiency of Picosecond Laser211 Plasma Sources [R] . Bijkerk, F., Stuik, R., Shmaenok, L. A., 1999

机译：皮秒激光211等离子体源窄带极紫外转换效率的优化

Systematic investigation of self-absorption property and conversion efficiency of 6.7-nm extreme ultraviolet sources

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