Calculation of the extreme-ultraviolet radiation conversion efficiency for a laser-produced tin plasma source

Masnavi, Majid; Parchamy, Homaira

doi:10.1016/j.physo.2019.100003

Cited by 4 publications

(5 citation statements)

References 31 publications

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“…At the same time, this paper also hopes to realize whether lithium plasma has a limit to its EVUCE and what this limit is. Therefore, the radiation spectrum of lithium plasma is simulated over a temperature range of 5 to 200 eV and a density range of 0.534 g/cm 3 to 0.00000534 g/cm 3 , which covers from solid density (N = 4.63 × 10 22 cm −3 ) to gas density (N = 4.63 × 10 17 cm −3 ) and is the plasma region of interest in the study of EUV light sources. It should be noticed that the plasma density extends to a relative lower value of 4.63 × 10 17 cm −3 , at which the assumption of the Saha equation probably does not hold well.…”

Section: Resultsmentioning

confidence: 99%

“…For example, a sustained time of 10 ns for plasma at a density of ρ = 0.53 g/cm 3 can reach a maximum EUVCE value of up to 27.96%. But for a plasma at a density of ρ = 0.0000053 g/cm 3 , the maximum EUVCE value is only about 2.1% for the same sustained time of 10 ns. This means that for low-density plasmas, a longer sustained time is needed to reach the same EUVCE as a higher-density plasma.…”

Section: Plasmamentioning

confidence: 93%

“…Currently, the generation of intense EUV light for commercial applications mainly relies on plasma radiation. Therefore, laser-and discharge-produced plasmas (LPPs and DPPs, respectively) have become the two mainstream technologies for the development of EUV light sources [2,3]. ASML [4], one of the rare suppliers of EUV lithography machines in the world, adopts the LPP solution.…”

Section: Introductionmentioning

confidence: 99%

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Simulation of Extreme Ultraviolet Radiation and Conversion Efficiency of Lithium Plasma in a Wide Range of Plasma Situations

Li,

Rosmej,

Chen

2024

Atoms

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Based on the detailed term accounting approach, the relationship between extreme ultraviolet conversion efficiency and plasma conditions, which range from 5 to 200 eV for plasma temperature and from 4.63 × 1017 to 4.63 × 1022 cm−3 for plasma density, is studied for lithium plasmas through spectral simulations involving very extended atomic configurations, including a benchmark set of autoionizing states. The theoretical limit of the EUV conversion efficiency and its dependence on sustained plasma time are given for different plasma densities. The present study provides the necessary understanding of EUV formation from the perspective of atomic physics and also provides useful knowledge for improving EUV conversion efficiency with different technologies.

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Section: Resultsmentioning

confidence: 99%

Section: Plasmamentioning

confidence: 93%

Section: Introductionmentioning

confidence: 99%

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Simulation of Extreme Ultraviolet Radiation and Conversion Efficiency of Lithium Plasma in a Wide Range of Plasma Situations

Li,

Rosmej,

Chen

2024

Atoms

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“…This increases the target density in the laser-gas interaction region. There is a significant interest in maximizing output from laser-produced plasmas in different wavelength ranges meant for specific applications [24][25][26]. In the present work, wideband spectral emission measurements from such a laser-produced plasma source based on double stream gas puff target are reported.…”

Section: Introductionmentioning

confidence: 96%

Metrology and Measurement Systems

Arikkatt,

Wachulak,

Fiedorowicz

et al. 2020

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We present spectral emission characteristics from laser-plasma EUV/SXR sources produced by irradiation of < 1 J energy laser pulse on eleven different double stream gas puff targets, with most intense electronic transitions identified in the spectral range from 1 nm to 70 nm wavelength which corresponds to photon energy from 18 eV to 1240 eV. The spectra were obtained using grazing incidence and transmission spectrographs from laser-produced plasma emission, formed by the interaction of a laser beam with a double stream gas puff target. Laser pulses with a duration of 4 ns and energy of 650 mJ were used for the experiment. We present the results obtained from three different spectrometers in the wavelength ranges of SXR (1-5.5 nm), SXR/EUV (4-15.5 nm), and EUV (10-70 nm). In this paper, detailed information about the source, gas targets under investigation, the experimental setup, spectral measurements and the results are presented and discussed. Such data may be useful for the identification of adequate spectral emissions from gasses in the EUV and SXR wavelength ranges dedicated to various experiments (i.e. broadband emission for the X-ray coherence tomography XCT) or may be used for verification of magnetohydrodynamic plasma codes.

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“…Examples include the elucidation of EUV generation in laser-driven tin plasmas [17][18][19][20][21][22][23], the characterization of tin-plasma properties [24][25][26][27][28][29][30] as well as the identification of experimental conditions (laser parameters, tin target structures, etc.) that optimize the working conditions of the light source [31][32][33][34][35][36]. Looking to the future and the need to develop more powerful EUV sources (beyond the current 250 W of in-band EUV power [37]) will require (i) new, fundamental insights on EUV generation from complex target structures [34] and (ii) exploring the plasma physics implications of alternate drive-laser concepts, e.g., the use of a Thulium-based 2-µm-wavelength drive laser [38][39][40][41][42].…”

Section: Introductionmentioning

confidence: 99%

Review of the 1st EUV Light Sources Code Comparison Workshop

Sheil,

Versolato,

Bakshi

et al. 2023

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We review the results of the 1st Extreme Ultraviolet (EUV) Light Sources Code Comparison Workshop. The goal of this workshop was to provide a platform for specialists in EUV light source plasma modeling to benchmark and validate their numerical codes using well-defined case studies. Detailed consideration of a plethora of atomic collisional and radiative processes is required for modeling EUV light source plasmas. Eight institutions spanning four countries contributed data to the workshop. Two topics were addressed, namely (i) the atomic kinetics and radiative properties of tin plasmas under EUV-generating conditions and (ii) laser absorption in a fully ionized, one-dimensional hydrogen plasma. In this paper, we summarize the key findings of the workshop and outline plans for future iterations of the code comparison activity.

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Calculation of the extreme-ultraviolet radiation conversion efficiency for a laser-produced tin plasma source

Cited by 4 publications

References 31 publications

Simulation of Extreme Ultraviolet Radiation and Conversion Efficiency of Lithium Plasma in a Wide Range of Plasma Situations

Simulation of Extreme Ultraviolet Radiation and Conversion Efficiency of Lithium Plasma in a Wide Range of Plasma Situations

Metrology and Measurement Systems

Review of the 1st EUV Light Sources Code Comparison Workshop

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