117 research outputs found
Hydrodynamics of interaction of pulsar and stellar winds and its impact on the high energy radiation of binary pulsar systems
The hydrodynamics of the interaction of pulsar and stellar winds in binary
systems harboring a pulsar and its impact on the nonthermal radiation of the
binary pulsar PSR B1259-63/SS2883 is discussed. The collision of an
ultrarelativistic pulsar wind with a nonrelativistic stellar outflow results in
significant bulk acceleration of the shocked material from the pulsar wind.
Already at distances comparable to the size of the binary system, the Lorentz
factor of the shocked flow can be as large as ~4. This results in
significant anisotropy of the inverse Compton radiation of accelerated
electrons. Because of the Doppler boosting of the produced radiation, one
should expect a variable gamma-ray signal from the system. In particular, this
effect may naturally explain the reported tendency of a decrease of TeV
gamma-ray flux close to the periastron. The modeling of the interaction of
pulsar and stellar winds allows self-consistent calculations of adiabatic
losses. Our results show that adiabatic losses dominate over the radiative
losses. These results have direct impact on the orbital variability of radio,
X-ray and gamma-ray signals detected from the binary pulsar PSR 1259-63/SS2883.Comment: 4 pages, 4 figures; based on poster presentation at "High Energy
Phenomena in Relativistic Outflows", Dublin, Sept. 2007; accepted for
publication in International Journal of Modern Physics
MHD Simulations of Magnetospheric Accretion, Ejection and Plasma-field Interaction
We review recent axisymmetric and three-dimensional (3D) magnetohydrodynamic
(MHD) numerical simulations of magnetospheric accretion, plasma-field
interaction and outflows from the disk-magnetosphere boundary.Comment: 11 pages, 8 figures, conference proceedings: "Physics at the
Magnetospheric Boundary", Geneva, Switzerland, 25-28 June, 201
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