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Simulation analysis of zinc ablation process and mass by intense pulsed ion beam irradiation
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Zeitschriftentitel: | Laser and Particle Beams |
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Personen und Körperschaften: | , , , , , , , , , |
In: | Laser and Particle Beams, 35, 2017, 3, S. 409-414 |
Medientyp: | E-Article |
Sprache: | Englisch |
veröffentlicht: |
Cambridge University Press (CUP)
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Schlagwörter: |
author_facet |
Zhang, J. Zhong, H.W. Yu, X. Shen, J. Liang, G.Y. Cui, X.J. Zhang, X.F. Zhang, G.L. Yan, S. Le, X.Y. Zhang, J. Zhong, H.W. Yu, X. Shen, J. Liang, G.Y. Cui, X.J. Zhang, X.F. Zhang, G.L. Yan, S. Le, X.Y. |
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author |
Zhang, J. Zhong, H.W. Yu, X. Shen, J. Liang, G.Y. Cui, X.J. Zhang, X.F. Zhang, G.L. Yan, S. Le, X.Y. |
spellingShingle |
Zhang, J. Zhong, H.W. Yu, X. Shen, J. Liang, G.Y. Cui, X.J. Zhang, X.F. Zhang, G.L. Yan, S. Le, X.Y. Laser and Particle Beams Simulation analysis of zinc ablation process and mass by intense pulsed ion beam irradiation Electrical and Electronic Engineering Condensed Matter Physics Atomic and Molecular Physics, and Optics |
author_sort |
zhang, j. |
spelling |
Zhang, J. Zhong, H.W. Yu, X. Shen, J. Liang, G.Y. Cui, X.J. Zhang, X.F. Zhang, G.L. Yan, S. Le, X.Y. 0263-0346 1469-803X Cambridge University Press (CUP) Electrical and Electronic Engineering Condensed Matter Physics Atomic and Molecular Physics, and Optics http://dx.doi.org/10.1017/s0263034617000398 <jats:title>Abstract</jats:title><jats:p>As the strong thermal effect in the surface, intense pulsed ion beam (IPIB) has been extensively used in material surface modification. The ablation is an important part in the interaction process between IPIB and material. In order to investigate the ablation mechanism, combined with IPIB dynamic energy spectrum and infrared imaging diagnostic results, a two-dimensional axisymmetric heat conduction model considering the effect of ablated material was constructed to describe the ablation process and calculate the lost mass of the targets. The influences of beam parameters and ablated matter on the ablation rate were discussed. The experimental and simulative results of ablation threshold and mass were compared.</jats:p> Simulation analysis of zinc ablation process and mass by intense pulsed ion beam irradiation Laser and Particle Beams |
doi_str_mv |
10.1017/s0263034617000398 |
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Cambridge University Press (CUP), 2017 |
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2017 |
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Cambridge University Press (CUP) |
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Laser and Particle Beams |
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title |
Simulation analysis of zinc ablation process and mass by intense pulsed ion beam irradiation |
title_unstemmed |
Simulation analysis of zinc ablation process and mass by intense pulsed ion beam irradiation |
title_full |
Simulation analysis of zinc ablation process and mass by intense pulsed ion beam irradiation |
title_fullStr |
Simulation analysis of zinc ablation process and mass by intense pulsed ion beam irradiation |
title_full_unstemmed |
Simulation analysis of zinc ablation process and mass by intense pulsed ion beam irradiation |
title_short |
Simulation analysis of zinc ablation process and mass by intense pulsed ion beam irradiation |
title_sort |
simulation analysis of zinc ablation process and mass by intense pulsed ion beam irradiation |
topic |
Electrical and Electronic Engineering Condensed Matter Physics Atomic and Molecular Physics, and Optics |
url |
http://dx.doi.org/10.1017/s0263034617000398 |
publishDate |
2017 |
physical |
409-414 |
description |
<jats:title>Abstract</jats:title><jats:p>As the strong thermal effect in the surface, intense pulsed ion beam (IPIB) has been extensively used in material surface modification. The ablation is an important part in the interaction process between IPIB and material. In order to investigate the ablation mechanism, combined with IPIB dynamic energy spectrum and infrared imaging diagnostic results, a two-dimensional axisymmetric heat conduction model considering the effect of ablated material was constructed to describe the ablation process and calculate the lost mass of the targets. The influences of beam parameters and ablated matter on the ablation rate were discussed. The experimental and simulative results of ablation threshold and mass were compared.</jats:p> |
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author | Zhang, J., Zhong, H.W., Yu, X., Shen, J., Liang, G.Y., Cui, X.J., Zhang, X.F., Zhang, G.L., Yan, S., Le, X.Y. |
author_facet | Zhang, J., Zhong, H.W., Yu, X., Shen, J., Liang, G.Y., Cui, X.J., Zhang, X.F., Zhang, G.L., Yan, S., Le, X.Y., Zhang, J., Zhong, H.W., Yu, X., Shen, J., Liang, G.Y., Cui, X.J., Zhang, X.F., Zhang, G.L., Yan, S., Le, X.Y. |
author_sort | zhang, j. |
container_issue | 3 |
container_start_page | 409 |
container_title | Laser and Particle Beams |
container_volume | 35 |
description | <jats:title>Abstract</jats:title><jats:p>As the strong thermal effect in the surface, intense pulsed ion beam (IPIB) has been extensively used in material surface modification. The ablation is an important part in the interaction process between IPIB and material. In order to investigate the ablation mechanism, combined with IPIB dynamic energy spectrum and infrared imaging diagnostic results, a two-dimensional axisymmetric heat conduction model considering the effect of ablated material was constructed to describe the ablation process and calculate the lost mass of the targets. The influences of beam parameters and ablated matter on the ablation rate were discussed. The experimental and simulative results of ablation threshold and mass were compared.</jats:p> |
doi_str_mv | 10.1017/s0263034617000398 |
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imprint_str_mv | Cambridge University Press (CUP), 2017 |
institution | DE-Gla1, DE-Zi4, DE-15, DE-Pl11, DE-Rs1, DE-105, DE-14, DE-Ch1, DE-L229, DE-D275, DE-Bn3, DE-Brt1, DE-D161 |
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physical | 409-414 |
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publisher | Cambridge University Press (CUP) |
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recordtype | ai |
series | Laser and Particle Beams |
source_id | 49 |
spelling | Zhang, J. Zhong, H.W. Yu, X. Shen, J. Liang, G.Y. Cui, X.J. Zhang, X.F. Zhang, G.L. Yan, S. Le, X.Y. 0263-0346 1469-803X Cambridge University Press (CUP) Electrical and Electronic Engineering Condensed Matter Physics Atomic and Molecular Physics, and Optics http://dx.doi.org/10.1017/s0263034617000398 <jats:title>Abstract</jats:title><jats:p>As the strong thermal effect in the surface, intense pulsed ion beam (IPIB) has been extensively used in material surface modification. The ablation is an important part in the interaction process between IPIB and material. In order to investigate the ablation mechanism, combined with IPIB dynamic energy spectrum and infrared imaging diagnostic results, a two-dimensional axisymmetric heat conduction model considering the effect of ablated material was constructed to describe the ablation process and calculate the lost mass of the targets. The influences of beam parameters and ablated matter on the ablation rate were discussed. The experimental and simulative results of ablation threshold and mass were compared.</jats:p> Simulation analysis of zinc ablation process and mass by intense pulsed ion beam irradiation Laser and Particle Beams |
spellingShingle | Zhang, J., Zhong, H.W., Yu, X., Shen, J., Liang, G.Y., Cui, X.J., Zhang, X.F., Zhang, G.L., Yan, S., Le, X.Y., Laser and Particle Beams, Simulation analysis of zinc ablation process and mass by intense pulsed ion beam irradiation, Electrical and Electronic Engineering, Condensed Matter Physics, Atomic and Molecular Physics, and Optics |
title | Simulation analysis of zinc ablation process and mass by intense pulsed ion beam irradiation |
title_full | Simulation analysis of zinc ablation process and mass by intense pulsed ion beam irradiation |
title_fullStr | Simulation analysis of zinc ablation process and mass by intense pulsed ion beam irradiation |
title_full_unstemmed | Simulation analysis of zinc ablation process and mass by intense pulsed ion beam irradiation |
title_short | Simulation analysis of zinc ablation process and mass by intense pulsed ion beam irradiation |
title_sort | simulation analysis of zinc ablation process and mass by intense pulsed ion beam irradiation |
title_unstemmed | Simulation analysis of zinc ablation process and mass by intense pulsed ion beam irradiation |
topic | Electrical and Electronic Engineering, Condensed Matter Physics, Atomic and Molecular Physics, and Optics |
url | http://dx.doi.org/10.1017/s0263034617000398 |