Spinning-Down of Moving Magnetars in the Propeller Regime
Abstract
We use axisymmetric magnetohydrodynamic simulations to investigate the spinning-down of magnetars rotating in the propeller regime and moving supersonically through the interstellar medium. The simulations indicate that magnetars spin-down rapidly due to this interaction, faster than for the case of a non-moving star. From many simulation runs we have derived an approximate scaling laws for the angular momentum loss rate, L \~ηm0.3μ0.60.8 M-0.4 *1.5, where is the density of the interstellar medium, M is Mach number, μ is the star's magnetic moment, * is its angular velocity, and ηm is magnetic diffusivity. A magnetar with a surface magnetic field of 1013 - 1015 G is found to spin-down to a period P > 105-106 s in 104 - 105 years. There is however uncertainty about the value of the magnetic diffusivity so that the time-scale may be longer. We discuss this model in respect of Soft Gamma Repeaters (SGRs) and the isolated neutron star candidate RXJ1856.5-3754.
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