Spatially and temporally resolved temperature and shock-speed measurements behind a laser-induced blast wave of energetic nanoparticles

Roy Sukesh; Jiang Naibo; Stauffer Hans U.; Schmidt Jacob B.

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Spatially and temporally resolved temperature and shock-speed measurements behind a laser-induced blast wave of energetic nanoparticles

机译：时空分辨的温度和激波速度测量，在高能纳米粒子的激光诱导爆炸波之后

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Spatially and temporally resolved temperature measurements behind an expanding blast wave are made using picosecond (ps) N2 coherent anti-Stokes Raman scattering (CARS) following laser flash heating of mixtures containing aluminum nanoparticles embedded in ammonium-nitrate oxidant. Production-front ps-CARS temperatures as high as 3600 ± 180 K—obtained for 50-nm-diameter commercially produced aluminum-nanoparticle samples—are observed. Time-resolved shadowgraph images of the evolving blast waves are also obtained to determine the shock-wave position and corresponding velocity. These results are compared with near-field blast-wave theory to extract relative rates of energy release for various particle diameters and passivating-layer compositions.

机译：使用皮秒（ps）N 2 相干抗斯托克斯拉曼散射（CARS），对包含嵌入硝酸铵中的铝纳米颗粒的混合物进行激光快速加热后，进行了爆炸声波背后的时空分辨温度测量氧化剂。观察到生产前的ps-CARS温度高达3600±180 K（对于直径为50 nm的商业生产的铝纳米颗粒样品而言，是获得的）。还获得了爆炸波的时间分辨阴影图图像，以确定冲击波的位置和相应的速度。将这些结果与近场爆炸波理论进行比较，以提取各种粒径和钝化层成分的相对能量释放速率。

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来源
《Journal of Applied Physics》 |2013年第18期|184310.1-184310.7|共7页
作者
Roy Sukesh; Jiang Naibo; Stauffer Hans U.; Schmidt Jacob B.;
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Spectral Energies, LLC, 5100 Springfield Street, Dayton, Ohio 45431, USA|c|;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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正文语种 eng
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1. Spatially and temporally resolved temperature and shock-speed measurements behind a laser-induced blast wave of energetic nanoparticles [J] . Sukesh Roy, Naibo Jiang, Hans U. Stauffer, Journal of Applied Physics . 2013,第18期

机译：时空分辨的温度和激波速度测量，在高能纳米粒子的激光诱导爆炸波之后
2. Temporally and spectrally resolved UV absorption and laser-induced fluorescence measurements during the pyrolysis of toluene behind reflected shock waves [J] . S. Zabeti, A. Drakon, S. Faust, Applied physics . 2015,第2期

机译：反射热波后甲苯热解过程中的时间和光谱分辨紫外吸收和激光诱导的荧光测量
3. SPATIALLY AND TEMPORALLY RESOLVED ELECTRON NUMBER DENSITY MEASUREMENTS IN A DECAYING LASER-INDUCED PLASMA USING HYDROGEN-ALPHA LINE PROFILES [J] . Parigger C., Lewis JWL., Plemmons DH. Applied optics . 1995,第18期

机译：使用氢-氢谱线分析衰变激光诱导等离子体中的时空分辨电子数密度测量
4. Space- and time-resolved temperature measurement behind a blast wave produced by laser ignition of energetic nanomaterials [C] . Stauffer, Hans U. CLEO;Conference on Lasers and Electro-Optics . 2012

机译：激光激发高能纳米材料产生的爆炸波后的时空分辨温度测量
5. Spatially-resolved, nonintrusive measurements in a nonreacting scramjet combustor using laser-induced iodine fluorescence. [D] . Fletcher, Douglas Gerald. 1989

机译：在非反应超燃冲压燃烧器中使用激光诱导的碘荧光进行空间分辨的非侵入式测量。
6. Spatially and temporally resolved gas distributions around heterogeneous catalysts using infrared planar laser-induced fluorescence [O] . Johan Zetterberg, Sara Blomberg, Johan Gustafson, -1

机译：红外平面激光诱导荧光在非均相催化剂周围时空分布的气体分布
7. Spatially and temporally resolved temperature and shock-speed measurements behind a laser-induced blast wave of energetic nanoparticles [O] . Roy Sukesh, Jiang Naibo, Stauffer Han U., 2013

机译：时空分辨的温度和激波速度测量，在高能纳米粒子的激光诱导爆炸波之后
8. Temporally and Spatially Resolved Spectroscopy of Laser-Induced Plasma from a Droplet. (Reannouncement with New Availability Information). [R] . Zheng, J. B., Hsieh, W. F., Chen, S. C., 1988

机译：从液滴中激光诱导等离子体的时间和空间分辨光谱。（重新公布新的可用性信息）。

Spatially and temporally resolved temperature and shock-speed measurements behind a laser-induced blast wave of energetic nanoparticles

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