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Reconstruction of ejecta field based on photon Doppler velocimetry from shock-loaded samples in vacuum

•Monte Carlo algorithm and Mie scattering theory are combined to obtain an accurate simulation of the PDV spectrum of the ejecta.•The qualitative influences of the ejecta velocity profile, total area mass and particle diameter on the PDV spectrum are revealed.•A novel optical model is proposed to bu...

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Bibliographic Details
Published in:Journal of quantitative spectroscopy & radiative transfer 2022-05, Vol.282, p.108106, Article 108106
Main Authors: Shi, Xiao-feng, Ma, Dong-jun, Dang, Song-lin, Ma, Zong-qiang, Sun, Hai-qun, He, An-min, Pei, Wang
Format: Article
Language:English
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Summary:•Monte Carlo algorithm and Mie scattering theory are combined to obtain an accurate simulation of the PDV spectrum of the ejecta.•The qualitative influences of the ejecta velocity profile, total area mass and particle diameter on the PDV spectrum are revealed.•A novel optical model is proposed to build the quantitative relationships between the ejecta parameters and PDV spectrum characteristics. With this model, these ejecta parameters can be extracted from the PDV spectrum directly. Photon Doppler velocimetry (PDV) has been extensively used to measure the velocity of single objection or fragments under the impact; however, with the PDV measurement, how to recover the ejecta field, which is a high-velocity multiple-particles system, remains a challenge. Mie theory is applied to describe the light-particle scattering process, and Monte Carlo algorithm is introduced to simulate PDV spectrums. By the simulations, how the PDV spectrum is qualitatively influenced by the velocity profile, particle size, and total area mass of ejecta is revealed. Then a novel optical model is proposed to derive the quantitative relationships between these ejecta parameters and PDV spectrum characteristics. With this model, the ejecta parameters can be extracted from PDV spectrum directly. Estimated values of the ejecta parameters from experimental spectrum are in good agreement with those measured by piezoelectric probe.
ISSN:0022-4073
1879-1352
DOI:10.1016/j.jqsrt.2022.108106