Plasma Plume Photography And Spectroscopy Of Fe-oxide Materials

R. Viskup; B. Praher; T. Stehrer; J. Jasik; H. Wolfmeir; E. Arenholz; J.D. Pedarnig; J. Heitz

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Plasma Plume Photography And Spectroscopy Of Fe-oxide Materials

机译：氧化铁材料的等离子羽化摄影和光谱

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Time-resolved photography was employed to study plasma dynamics and particle ejection of laser-irradiated iron oxide materials. Nano-particle powder, pressed powder pellets and sintered ceramics were ablated in air and Ar gas background by means of short laser pulses (Nd:YAG laser wavelength λ = 1064 nm and pulse duration τ_L≈ 6 ns; KrF laser λ = 248 nm and τ_L ≈ 20 ns). Plasma plume dynamics significantly depended on sample morphology. The ejection of non-luminous particles up to several hundreds of microseconds after the laser pulse was observed for powder and pressed powder target materials. Laser-induced breakdown spectroscopy (LIBS) was employed for element analysis of iron oxide powders, pressed pellets and sintered ceramics. LIBS spectra of the different targets were comparable to each other and qualitatively independent of target morphology.

机译：时间分辨摄影用于研究等离子体动力学和激光辐照的氧化铁材料的粒子喷射。通过短激光脉冲（Nd：YAG激光波长λ= 1064 nm和脉冲持续时间τ_L≈6 ns; KrF激光λ= 248 nm和τ_L≈20 ns）。血浆羽流动力学很大程度上取决于样品的形态。在观察到激光脉冲后，粉末和压制的粉末靶材最多可喷射数百微秒的非发光粒子。激光诱导击穿光谱法（LIBS）用于氧化铁粉末，压丸和烧结陶瓷的元素分析。不同目标的LIBS光谱彼此可比，并且定性独立于目标形态。

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来源
《Applied Surface Science》 |2009年第10期|p.5215-5219|共5页
作者
R. Viskup; B. Praher; T. Stehrer; J. Jasik; H. Wolfmeir; E. Arenholz; J.D. Pedarnig; J. Heitz;
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Christian Doppler Laboratory for Laser - Assisted Diagnostics, Johannes Kepler University Linz, A-4040 Lira, Austria;

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原文格式 PDF
正文语种 eng
中图分类应用物理学;
关键词
pulsed-laser ablation; laser-induced breakdown spectroscopy; plasma plume photography; particle ejection; nano-powder; iron oxide;

机译：脉冲激光烧蚀;激光诱导击穿光谱;等离子体羽摄影;颗粒喷射;纳米粉末;氧化铁;
入库时间 2022-08-18 03:07:50

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Plasma Plume Photography And Spectroscopy Of Fe-oxide Materials

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