Influence of Pre-Ionized Plasma on the Dynamics of a Tin Laser-Triggered Discharge-Plasma

Xu, Qiang; Deng, Xiaolong; Tian, He; Zhao, Yijun; Wang, Qi

doi:10.3390/app9234981

Applied Sciences

2019

DOI: 10.3390/app9234981

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Influence of Pre-Ionized Plasma on the Dynamics of a Tin Laser-Triggered Discharge-Plasma

Qiang Xu

Xiaolong Deng

He Tian

et al.

Abstract: The effect of laser-current delay on extreme ultraviolet emission by laser-triggered discharge-plasma has been investigated. Typical waveforms for current, voltage, laser signals, and X-ray signals have been compared. Theoretical tin spectra were simulated among the electron temperature ranges from 10 to 50 eV to compare with the experimental results. The results show that longer laser-current delay time is propitious to increase the steady-state time of plasma at high temperatures, and it increases the intens… Show more

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Cited by 2 publications

References 34 publications

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Spectroscopic Studies of Laser-Based Far-Ultraviolet Plasma Light Source

Masnavi

Richardson

2021

Applied Sciences

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A series of experiments is described which were conducted to measure the absolute spectral irradiances of laser plasmas created from metal targets over the wavelength region of 123–164 nm by two separate 1.0 μm lasers, i.e., using 100 Hz, 10 ns, 2–20 kHz, 60–100 ns full-width-at-half-maximum pulses. A maximum radiation conversion efficiency of ≈ 3%/2πsr is measured over a wavelength region from ≈ 125 to 160 nm. A developed collisional-radiative solver and radiation-hydrodynamics simulations in comparison to the spectra detected by the Seya–Namioka-type monochromator reveal the strong broadband experimental radiations which mainly originate from bound–bound transitions of low-ionized charges superimposed on a strong continuum from a dense plasma with an electron temperature of less than 10 eV.

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Spectroscopic Studies of Laser-Based Far-Ultraviolet Plasma Light Source

Masnavi

Richardson

2021

Applied Sciences

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激光诱导放电等离子体极紫外光源的研究

Wang Junwu,

Xuan Hongwen,

Wang Xinbing

et al. 2024

中国激光

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Objective With the continuous decrease in feature size in the semiconductor industry, extreme ultraviolet lithography (EUVL) is voltage increases from 7 kV to 15 kV, the total and EUV radiation powers both increase, and the highest EUV radiation power reaches 0.025 MW. The total radiation energy increases from 842.00 mJ to 3.85 J, and the total EUV radiation energy increases from 3.5 mJ to 65.0 mJ. The CE increases from 0.054% to 0.23%, and the SP increases from 0.42% to 1.69%. At a voltage of 7 kV, the maximum EUV radiation power density is 0.09 MW/cm 3 , and the EUV radiation is mainly concentrated near the anode (Fig. 7). When the voltage is 15 kV, the maximum EUV radiation power density can reach 0.3 MW/cm 3 , and the EUV radiation is mainly concentrated on both sides of the electrodes (Fig. 8). The average ionization degree of the plasma in the main area of EUV radiation is 10-12.Conclusions In this study, the EUV radiation emitted by the LDP and LPP is conducted experimentally and theoretically.Compared to that of the LPP source, the temperature of the LDP source is significantly higher, and more Sn 10+ , Sn 11+ , and Sn 12+ ions are present. Transitions between multiple excited states gradually replace those between single excited and ground states. However, the plasma size of the LDP source is very large, resulting in a low radiation power density. The light source for mask inspection requires strong brightness; therefore, further research on the Zpinch mechanism is required to reduce the plasma size and improve brightness. The discharge voltage significantly influences the inband EUV radiation of the LDP source. This phenomenon demonstrates the major advantage of the LDP light source: the extreme ultraviolet output power can be increased by increasing the injection of electrical energy. However, CE and SP still need to be improved by increasing the current rise rate. Shortening the current rise time and reducing the inductance of the discharge circuit can be good approaches.

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Influence of Pre-Ionized Plasma on the Dynamics of a Tin Laser-Triggered Discharge-Plasma

Cited by 2 publications

References 34 publications

Spectroscopic Studies of Laser-Based Far-Ultraviolet Plasma Light Source

Spectroscopic Studies of Laser-Based Far-Ultraviolet Plasma Light Source

激光诱导放电等离子体极紫外光源的研究

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