In the laboratory, space, and astrophysical plasma environment, the proper understanding of dusty plasma and wave propagation characteristics are crucial in diverse fields such as
laboratory applications (fusion devices, semiconductor industry, etc.) and spacen exploration. The charge perturbation induced on the equilibrium space dusty plasma by the space debris and meteoroids affects the linear and nonlinear wave properties. Recently, I am focused on dust dynamics, dust charge fluctuations, dust levitation, sheath
characteristics of the lunar surface (sheath instability due to the presence of charge dust particles as Rayleigh-Taylor instability), Landau damping phenomenon, linear and
nonlinear wave properties in the magnetized and unmagnetized laboratory, space and astrophysical dusty plasmas. In addition, I am interested in exploring the plasma wave
dynamics on strongly and weakly coupled magnetized astrophysical dusty plasma, wave instabilities driven by temperature anisotropy, quantum dusty plasma applications to
neutron stars, and particle transport phenomenon in rotating plasma (astrophysical and space plasmas).

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  279-8787

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  suresh.basnet@apctp.org

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  548

  548

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  Fluid/Plasma Physics

  Fluid/Plasma Physics