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Effects of collision between two plumes on plume expansion dynamics during pulsed laser ablation in background gas

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Abstract

Si and Ge targets were simultaneously irradiated by individual two pulsed lasers, and two plumes from the targets were collided head-on with expectation to prepare hybrid nanoparticles. We investigate effects of He background gas pressure on plume collision dynamics. Three characteristic behaviors of plume expansion dynamics are observed at low, middle, and high background gas pressure regions. Interaction between the two atomic species during plume expansion was small and the effect of collision was hardly observed at a low background gas pressure, 130 Pa, while spatial evolution of the plume was suppressed at middle pressure, 270 Pa, due to collision of the two plumes. At high pressure, 2700 Pa, plume expansion is suppressed by background gas and the effect of a direct collision of two plumes was small. These results indicate that plume collision dynamics, which governs nanoparticle formation, and the mixture of Si and Ge species can be varied by background gas pressure. The deposit near the center of two targets was nanoparticles that were composed of Si and Ge.

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Acknowledgements

This work was partially supported by a Grant-in-Aid for Scientific Research from the Japan Society for the Promotion of Science.

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Authors and Affiliations

  1. Department of physics, Konan University, Kobe, 658-8501, Japan

    Ikurou Umezu, Yasuhiro Yokoyama, Koichiro Nobuzawa & Akira Sugimura

  2. Department of Science and Engineering, Iwaki Meisei University, Iwaki, 970-8551, Japan

    Naomichi Sakamoto

  3. Department of Mechanical Engineering, Nara National College of Technology, Nara, 639-1080, Japan

    Hiroshi Fukuoka

Authors
  1. Ikurou Umezu
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  2. Naomichi Sakamoto
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  3. Hiroshi Fukuoka
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  4. Yasuhiro Yokoyama
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  5. Koichiro Nobuzawa
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  6. Akira Sugimura
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Correspondence to Ikurou Umezu.

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Umezu, I., Sakamoto, N., Fukuoka, H. et al. Effects of collision between two plumes on plume expansion dynamics during pulsed laser ablation in background gas. Appl. Phys. A 110, 629–632 (2013). https://doi.org/10.1007/s00339-012-7141-x

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  • DOI: https://doi.org/10.1007/s00339-012-7141-x

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