A HIGH BRAKING INDEX FOR A PULSAR

A HIGH BRAKING INDEX FOR A PULSAR

ABSTRACT We present a phase-coherent timing solution for PSR J1640-4631, a young 206 ms pulsar using X-ray timing observations taken with NuSTAR. Over this timing campaign, we have measured the braking index of PSR J1640-4631 to be n = 3.15 0.03. Using a series of simulations, we argue that this unu...

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Veröffentlicht in:Astrophysical journal. Letters 2016-03, Vol.819 (1), p.L16
Hauptverfasser: Archibald, R. F., Gotthelf, E. V., Ferdman, R. D., Kaspi, V. M., Guillot, S., Harrison, F. A., Keane, E. F., Pivovaroff, M. J., Stern, D., Tendulkar, S. P., Tomsick, J. A.
Format: Artikel
Sprache:eng
Schlagworte:
ASTROPHYSICS, COSMOLOGY AND ASTRONOMY
Braking
Flux
GHZ RANGE
INDEXES
MASS
NEUTRONS
NOISE
PULSARS
pulsars: general
pulsars: individual (PSR J1640-4631)
QUADRUPOLES
Recovery
Simulation
SPIN
STARS
stars: neutron
Time measurements
X RADIATION
X-rays
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Zusammenfassung:ABSTRACT We present a phase-coherent timing solution for PSR J1640-4631, a young 206 ms pulsar using X-ray timing observations taken with NuSTAR. Over this timing campaign, we have measured the braking index of PSR J1640-4631 to be n = 3.15 0.03. Using a series of simulations, we argue that this unusually high braking index is not due to timing noise, but is intrinsic to the pulsar's spin-down. We cannot, however, rule out contamination due to an unseen glitch recovery, although the recovery timescale would have to be longer than most yet observed. If this braking index is eventually proven to be stable, it demonstrates that pulsar braking indices greater than three are allowed in nature; hence, other physical mechanisms such as mass or magnetic quadrupoles are important in pulsar spin-down. We also present a 3 upper limit on the pulsed flux at 1.4 GHz of 0.018 mJy.
ISSN:2041-8205
2041-8213
DOI:10.3847/2041-8205/819/1/L16