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Old but still warm: Far-UV detection of PSR B0950+08

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arxiv 1710.06448 v1 pith:I6X26K4Q submitted 2017-10-17 astro-ph.HE

Old but still warm: Far-UV detection of PSR B0950+08

classification astro-ph.HE
keywords neutronstarb0950spectrumalphadatadetectionheating
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We report on a Hubble Space Telescope detection of the nearby, old pulsar B0950+08 ($d\simeq 262$ pc, spin-down age 17.5 Myr) in two far-ultraviolet (FUV) bands. We measured the mean flux densities $\bar{f}_\nu = 109\pm 6$ nJy and $83\pm 14$ nJy in the F125LP and F140LP filters (pivot wavelengths 1438 and 1528 \AA). Using the FUV data together with previously obtained optical-UV data, we conclude that the optical-FUV spectrum consists of two components -- a nonthermal (presumably magnetospheric) power-law spectrum ($f_\nu\propto \nu^\alpha$) with slope $\alpha\sim -1.2$ and a thermal spectrum emitted from the bulk of the neutron star surface with a temperature in the range of $(1-3)\times 10^5$ K, depending on interstellar extinction and neutron star radius. These temperatures are much higher than predicted by neutron star cooling models for such an old pulsar, which means that some heating mechanisms operate in neutron stars. A plausible mechanism responsible for the high temperature of PSR B0950+08 is the interaction of vortex lines of the faster rotating neutron superfluid with the slower rotating normal matter in the inner neutron star crust (vortex creep heating).

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