In certain conditions, plasma processes lead to the formation of a dispersed phase. A phase transformation is associated with the formation of a chemical bond and grouping of valence electrons of the surface and adsorbed atom, Pauli's principle being met. According to the experiment presented herein, nanoparticles generated from the plasma in laser-induced breakdown in a weak (80 mT) constant magnetic field, possess the smaller size than field-free nanoparticles. The paper studies processes affecting the nanoparticle size formed from the plasma in laser-induced breakdown in the weak constant magnetic field.

中文翻译：

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激光诱导等离子体在磁场中产生纳米颗粒

在某些条件下，等离子体过程会导致分散相的形成。相变与化学键的形成以及表面和吸附原子的价电子的聚集相关，满足泡利原理。根据本文提出的实验，在弱（80 mT）恒定磁场中激光诱导击穿中等离子体产生的纳米颗粒具有比无场纳米颗粒更小的尺寸。该论文研究了在弱恒定磁场中激光诱导击穿过程中影响等离子体形成的纳米颗粒尺寸的过程。