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
关键词
D O I
暂无
中图分类号
学科分类号
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.
引用
收藏
页码:32 / 36
页数:4
相关论文
共 50 条
  • [41] Geometrical modeling of surface profile formation during laser ablation of materials
    Vatsya, SR
    Bordatchev, EV
    Nikumb, SK
    JOURNAL OF APPLIED PHYSICS, 2003, 93 (12) : 9753 - 9759
  • [42] Formation of large carbon clusters during laser ablation of foam graphite
    Kudryashov, SI
    Zorov, NB
    Karabutov, AA
    Kuzyakov, YY
    MENDELEEV COMMUNICATIONS, 1997, (01) : 22 - 24
  • [43] Relaxation processes and formation of thermal shock waves during laser ablation
    Gruzdeva, AS
    Gruzdev, VE
    HIGH-POWER LASER ABLATION III, 2000, 4065 : 200 - 209
  • [44] Transfer of stoichiometry during pulsed laser ablation of multicomponent magnetic targets
    Acquaviva, S
    D'Anna, E
    De Giorgi, ML
    Fernandez, M
    Luches, A
    Majni, G
    Luby, S
    Majkova, E
    APPLIED SURFACE SCIENCE, 2005, 248 (1-4) : 286 - 290
  • [45] The temperature field during laser ablation of glass composites at high temperatures
    Mkrtychev, O. V.
    Shemanin, V. G.
    XXXIII INTERNATIONAL CONFERENCE ON EQUATIONS OF STATE FOR MATTER, 2019, 1147
  • [46] The impact of a magnetic field on ferromagnetic materials isolated using ultraviolet laser ablation
    Tsai, Hsin-Yi
    Yang, Ching Ching
    Yang, Chih-Chung
    Hsiao, Wen-Tse
    Huang, Kuo-Cheng
    APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING, 2014, 117 (01): : 415 - 421
  • [47] Characterization of nanosized aerosol particles produced by laser ablation
    Journal of Aerosol Science, 1995, 26 (Suppl 1):
  • [48] Laser ablation of Ni in the presence of external magnetic field: Selection of microsized particles
    Nikov, Ro G.
    Nedyalkov, N. N.
    Karashanova, D. B.
    APPLIED SURFACE SCIENCE, 2020, 518
  • [49] Fabrication of multicomponent nanowires by laser ablation of mixed target in a presence of magnetic field
    Nikov, Rumen G.
    Dikovska, Anna Og.
    Nedyalkov, Nikolay N.
    Avdeev, Georgi V.
    20TH INTERNATIONAL CONFERENCE AND SCHOOL ON QUANTUM ELECTRONICS: LASER PHYSICS AND APPLICATIONS, 2019, 11047
  • [50] Ablation plasma transport using multicusp magnetic field for laser ion source
    Takahashi, K.
    Umezawa, M.
    Uchino, T.
    Ikegami, K.
    Sasaki, T.
    Kikuchi, T.
    Harada, N.
    9TH INTERNATIONAL CONFERENCE ON INERTIAL FUSION SCIENCES AND APPLICATIONS (IFSA 2015), 2016, 717
12345