Aerosol Formation During Laser Ablation in a Magnetic Field

被引:0
|
作者
V. F. Myshkin
I. V. Tuksov
Wang Cailun
A. V. Lukin
V. A. Khan
D. V. Lychagin
D. M. Khorokhorin
S. F. Balandin
机构
[1] Tomsk Polytechnic University,
[2] Zuev Institute of Atmospheric Optics,undefined
[3] Siberian Branch of the Russian Academy of Sciences,undefined
[4] Tomsk State University,undefined
[5] Mining and Chemical Combine,undefined
来源
Atomic Energy | 2021年 / 131卷
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摘要
Data on the particle size distribution of Al2O3, Zr2O3, and ChS-68 nonmagnetic steel dispersed particles formed from laser plasma in a weak magnetic field are presented. It was found that dispersed particles formed in a magnetic field have sharper edges and smaller sizes than without a magnetic field. A model of physicochemical processes that explains this result is presented. It is shown that the formation probability of a singlet pair of electrons of unpaired electrons of an adsorbed atom and an atom on the surface of a dispersed particle in the first collision increases in a magnetic field. Therefore, in a magnetic field, condensation nuclei form faster and diameter growth of the dispersed particles is greater.
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页码:32 / 36
页数:4
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