Simulations of a low frequency beam-cyclotron instability in a dusty plasma

Abstract: The nonlinear development of a low frequency beam-cyclotron instability in a collisional plasma composed of magnetized ions and electrons and unmagnetized, negatively charged dust is investigated using one-dimensional particle-in-cell simulations. Collisions of charged particles with neutrals are taken into account via a Langevin operator. The instability, which is driven by an ion $\boldsymbol{E}\times \boldsymbol{B}$ drift, excites a quasi-discrete wavenumber spectrum of waves that propagate perpendicular t… Show more

“…The simulation runs were performed with a 1-D electrostatic particle-in-cell (PIC) code with periodic boundary conditions (Rosenberg, Quest & Kercher 2018). The plasma particle species in the PIC simulation consists of singly charged ions that stream in the -direction relative to multiply charged heavy dust grains that are stationary in the simulation reference frame.…”

Simulations of ion–dust streaming instability in a highly collisional plasma

“…The simulation runs were performed with a 1-D electrostatic particle-in-cell (PIC) code with periodic boundary conditions (Rosenberg, Quest & Kercher 2018). The plasma particle species in the PIC simulation consists of singly charged ions that stream in the -direction relative to multiply charged heavy dust grains that are stationary in the simulation reference frame.…”

Simulations of ion–dust streaming instability in a highly collisional plasma