PULSAR MAGNETOSPHERES: BEYOND THE FLAT SPACETIME DIPOLE

• Main Authors: Gralla, Samuel E., Lupsasca, Alexandru, Philippov, Alexander
• Other Authors: Univ Arizona, Dept Phys
• Language: en
• Published: IOP PUBLISHING LTD 2016
• Subjects: magnetic fields; plasmas; pulsars: general; stars: rotation
• Online Access: http://hdl.handle.net/10150/622675; http://arizona.openrepository.com/arizona/handle/10150/622675

Most studies of the pulsar magnetosphere have assumed a pure magnetic dipole in flat spacetime. However, recent work suggests that the effects of general relativity are in fact of vital importance and that realistic pulsar magnetic fields will have a significant nondipolar component. We introduce a general analytical method for studying the axisymmetric force-free magnetosphere of a slowly rotating star of arbitrary magnetic field, mass, radius, and moment of inertia, including all the effects of general relativity. We confirm that spacelike current is generically present in the polar caps (suggesting a pair production region), irrespective of the stellar magnetic field. We show that general relativity introduces a similar to 60% correction to the formula for the dipolar component of the surface magnetic field inferred from spindown. Finally, we show that the location and shape of the polar caps can be modified dramatically by even modestly strong higher moments. This can affect emission processes occurring near the star and may help explain the modified beam characteristics of millisecond pulsars.