Spin-down of an oblique rotator with a current-starved outer magnetosphere

Details Spin-down of an oblique rotator with a current-starved outer magnetosphere Spin-down of an oblique rotator with a current-starved outer magnetosphere

Jul 1997

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1997mnras.288.1049m&link_type=abstract

Monthly Notices of the Royal Astronomical Society, Volume 288, Issue 4, pp. 1049-1059.

Astronomy and Astrophysics

Astronomy

52

Stars: Neutron, Pulsars: General, Stars: Rotation.

Scientific paper

A variant of the vacuum-dipole model of rotation-powered pulsars is presented that accounts for the observed spin-down properties of all three pulsars with braking indices measured from absolute pulse numbering (the Crab, PSR B0540-69 and PSR B1509-58). In the model, the neutron star and inner magnetosphere are treated phenomenologically as a single unit, a magnetized, perfectly conducting sphere of radius r_v rotating rigidly in vacuo. The `vacuum radius' r_v corresponds to the innermost point in the magnetosphere where field-aligned flow breaks down and the plasma becomes three-dimensional, that is, the point where cyclotron losses occur slowly enough to allow electrons (or positrons) to move an appreciable distance before decaying to the l=0 Landau state. For young, Crab-like pulsars, one typically finds r_*<, where r_* is the stellar radius, and r_L is the light-cylinder distance. The model therefore differs from standard vacuum-dipole theories, in which the dipole has radius r_* and is treated as point-like. Three observable pulsar parameters - the rotation frequency omicron, its time derivative /omicron, and the angle alpha between the rotation and magnetic axes - uniquely determine r_v and hence the electromagnetic braking torque exerted on the star, calculated from the Deutsch radiation fields of the rotating dipole. With no free parameters, the theory yields braking index values n=omicron,omicron//omicron^2 for the Crab, PSR B0540-69 and PSR B1509-58 that agree with timing data to 4 per cent. The second deceleration parameter m=omicron^2omicron...//omicron^3 is also predicted for each object, but cannot be verified to useful precision using data available at present. The relationship between our idealized yet successful spin-down model and a genuine pulsar magnetosphere is discussed, and further observational tests of the theory are proposed.

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