Acceleration of the charged particles due to chaotic scattering in the
... The energy of a rotating black hole immersed into a magnetic field can be extracted due to the Blandford–Znajek process [46] and demonstrated by relativistic jets, i.e., collimated streams of particles escaping the central object along the axis of rotation with relativistic velocities. In the presen ...
... The energy of a rotating black hole immersed into a magnetic field can be extracted due to the Blandford–Znajek process [46] and demonstrated by relativistic jets, i.e., collimated streams of particles escaping the central object along the axis of rotation with relativistic velocities. In the presen ...
MEL 417 Lubrication Minor I
... Effect of temperature on viscosity • Viscosity decreases with rise in temperature • Amount of decrease depends upon source of oil, refining and blending procedures and the presence of additives • Temperature-viscosity relationship is important as viscosity determines the load bearing capacity • Wal ...
... Effect of temperature on viscosity • Viscosity decreases with rise in temperature • Amount of decrease depends upon source of oil, refining and blending procedures and the presence of additives • Temperature-viscosity relationship is important as viscosity determines the load bearing capacity • Wal ...
X-ray Observations of Cosmic Accelerators Greg Madejski SLAC/KIPAC
... -> Flares come from dissipation of gravitational energy What is the origin of the hot plasma? Observed X-ray spectra (up to at least 100 keV) indicate that accretion disks must be sites of vigorous particle acceleration - Most likely associated with “plasma viscosity” provided by the magneto-rotatio ...
... -> Flares come from dissipation of gravitational energy What is the origin of the hot plasma? Observed X-ray spectra (up to at least 100 keV) indicate that accretion disks must be sites of vigorous particle acceleration - Most likely associated with “plasma viscosity” provided by the magneto-rotatio ...
Effect of the symmetry energy on gravitational waves from axial
... The w-modes are very important for astrophysical applications. The gravitational wave frequency of the axial w-mode depends on the neutron star’s structure and properties, which are determined by the EOS of neutronrich stellar matter. Heavy-ion reactions provide means to constrain the uncertain dens ...
... The w-modes are very important for astrophysical applications. The gravitational wave frequency of the axial w-mode depends on the neutron star’s structure and properties, which are determined by the EOS of neutronrich stellar matter. Heavy-ion reactions provide means to constrain the uncertain dens ...
