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High Temperature Material Processes: An International Quarterly of High-Technology Plasma Processes

年間 4 号発行

ISSN 印刷: 1093-3611

ISSN オンライン: 1940-4360

The Impact Factor measures the average number of citations received in a particular year by papers published in the journal during the two preceding years. 2017 Journal Citation Reports (Clarivate Analytics, 2018) IF: 0.4 The Immediacy Index is the average number of times an article is cited in the year it is published. The journal Immediacy Index indicates how quickly articles in a journal are cited. Immediacy Index: 0.1 The Eigenfactor score, developed by Jevin West and Carl Bergstrom at the University of Washington, is a rating of the total importance of a scientific journal. Journals are rated according to the number of incoming citations, with citations from highly ranked journals weighted to make a larger contribution to the eigenfactor than those from poorly ranked journals. Eigenfactor: 0.00005 The Journal Citation Indicator (JCI) is a single measurement of the field-normalized citation impact of journals in the Web of Science Core Collection across disciplines. The key words here are that the metric is normalized and cross-disciplinary. JCI: 0.07 SJR: 0.198 SNIP: 0.48 CiteScore™:: 1.1 H-Index: 20

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SELF-ABSORBED LINES ANALYSIS OF A RECOMBINING LASER INDUCED ALUMINUM PLASMA

巻 12, 発行 1-2, 2008, pp. 109-120
DOI: 10.1615/HighTempMatProc.v12.i1-2.90
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要約

During the recombination of a plasma produced by a nanosecond laser impact on an aluminum alloy target, the resonant spectral lines of Al I exhibit strong deformations owing to the self-absorption. At 1 mm above the surface and for different time delays after the laser pulse, the intensity and the shape of these experimental lines have been successfully compared with the ones derived from the integration of a self-consistent radiative transfer equation (RTE). Without any equilibrium hypothesis, reliable spatio-temporal evolutions of the involved densities (free electron, upper and lower state of the resonant transitions) are thus obtained between 60 and 180 ns after the laser pulse.

によって引用された
  1. Ribière M., Karabourniotis D., Chéron B. G., Spectroscopic analysis of the excitation transfer from background air to diffusing aluminum laser produced plasma, Journal of Applied Physics, 105, 8, 2009. Crossref

  2. Ribière M., Méès L., Allano D., Chéron B. G., Evolutions in time and space of laser ablated species by dual-laser photoabsorption spectroscopy, Journal of Applied Physics, 104, 4, 2008. Crossref

  3. Cremers David A., Chinni Rosemarie C., Laser-Induced Breakdown Spectroscopy—Capabilities and Limitations, Applied Spectroscopy Reviews, 44, 6, 2009. Crossref

  4. Rezaei F., Karimi P., Tavassoli S. H., Estimation of self-absorption effect on aluminum emission in the presence of different noble gases: comparison between thin and thick plasma emission, Applied Optics, 52, 21, 2013. Crossref

  5. Ryazantsev S. N., Skobelev I. Yu., Faenov A. Ya., Pikuz T. A., Higginson D. P., Chen S. N., Revet G., Béard J., Portugall O., Soloviev A. A., Grum-Grzhimailo A. N., Fuchs J., Pikuz S. A., Diagnostics of laser-produced plasmas based on the analysis of intensity ratios of He-like ions X-ray emission, Physics of Plasmas, 23, 12, 2016. Crossref

  6. Rezaei Fatemeh, Cristoforetti Gabriele, Tognoni Elisabetta, Legnaioli Stefano, Palleschi Vincenzo, Safi Ali, A review of the current analytical approaches for evaluating, compensating and exploiting self-absorption in Laser Induced Breakdown Spectroscopy, Spectrochimica Acta Part B: Atomic Spectroscopy, 169, 2020. Crossref

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