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Volume 6

Research & Reviews: Journal of Material Sciences

Advanced Materials 2018

September 19-21, 2018

September 19-21, 2018 Tokyo, Japan

22

nd

International Conference on

Advanced Materials and Nanotechnology

Shinichiro Kitamoto et al., Res. Rev. J Mat. Sci. 2018, Volume 6

DOI: 10.4172/2321-6212-C4-024

Development of a simulation tool for a plasma generation based on the dual property of electrons

Shinichiro Kitamoto and Petros Abraha

Meijo University, Japan

T

his research presents the development of a simulation tool that characterizes and optimizes the plasma characteristics

of a new plasma device based on the dual property of electrons. The device is specifically tailored to produce uniform

and large-volume plasma that can harden the surface of large-sized or large-number of mechanical parts. The thin nitride

layer is formed by the diffusion of interstitial nitrogen atoms to within a few tens of micrometers into the bulk material.

Evaluation of the performance of the plasma device in attaining uniform and large-volume treated materials requires extensive

experimental work, modeling and numerical simulation in addition to plasma diagnostics. In this research, the principle of the

plasma generation and the operating conditions of the plasma device, are considered in constructing the simulation tool that

illustrates the qualitative relations between the plasma parameters and the magnitude and uniformity of the plasma. Numerical

simulation of three sequential regions namely, particle, wave and particle regions are modeled to give the total framework. In

the two particle regions, Particle-In-Cell and Monte-Carlo-Collusion methods are carried out to determine the particle energy

and position within the plasma chamber. While in the wave region, Fresnel theory is used to determine the diffracted electron

intensity distribution. In combining the results of the particle and wave regions, the plasma characteristic of the device is

holistically determined.

Biography

Shinichiro Kitamoto has completed his Bachelor’s degree from Meijo University School of Mechanical Engineering and currently pursuing his graduation at Meijo

University School of Mechanical Engineering.

173430010@ccalumni.meijo-u.ac.jp