Towards Resolving the Crab $σ-$Problem: A Linear Accelerator?

Details Towards Resolving the Crab $σ-$Problem: A Linear Accelerator? Towards Resolving the Crab $σ-$Problem: A Linear Accelerator?

2001-10-08

arxiv.org/abs/astro-ph/0110183v1

Astronomy and Astrophysics

Astrophysics

16 pages AASTEX, accepted for publication in the Astrophysical Journal

Scientific paper

10.1086/324778

Using the exact solution of the axisymmetric pulsar magnetosphere derived in a previous publication and the conservation laws of the associated MHD flow, we show that the Lorentz factor of the outflowing plasma increases linearly with distance from the light cylinder. Therefore, the ratio of the Poynting to particle energy flux, generically referred to as $\sigma$, decreases inversely proportional to distance, from a large value (typically $\gsim 10^4$)near the light cylinder to $\s \simeq 1$ at a transistion distance $R_{\rm trans}$. Beyond this distance the inertial effects of the outflowing plasma become important and the magnetic field geometry must deviate from the almost monopolar form it attains between $R_{lc}$ and $R_{\rm trans}$. We anticipate that this is achieved by collimation of the poloidal field lines toward the rotation axis, ensuring that the magnetic field pressure in the equatorial region will fall-off faster than $1/R^2$ ($R$ being the cylindrical radius). This leads both to a value $\s=\ss \ll 1$ at the nebular reverse shock at distance $R_s$ ($R_s \gg R_{\rm trans}$) and to a component of the flow perpendicular to the equatorial component, as required by observation. The presence of the strong shock at $R = R_s$ allows for the efficient conversion of kinetic energy into radiation. We speculate that the Crab pulsar is unique in requiring $\ss \simeq 3 \times 10^{-3}$ because of its small translational velocity, which allowed for the shock distance $R_s$ to grow to values $\gg R_{\rm trans}$.

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