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Tracking the long-term timing accuracy of the X-Ray Telescope on board the Neil Gehrels Swift Observatory

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posted on 2025-03-07, 09:56 authored by G Cusumano, V La Parola, M Capalbi, M Perri, E Ambrosi, Andrew BeardmoreAndrew Beardmore, A D’Aì, DN Burrows, S Campana, Phil EvansPhil Evans, JA Kennea, JP Osborne, B Sbarufatti, G Tagliaferri
Context. The Neil Gehrels Swift Observatory has been operational since November 2004. Its X-ray Telescope (XRT), operating in the 0.3–10.0 keV range, is designed to provide detailed position, timing, and spectroscopic information. Aims. The calibration procedure for assessing the absolute timing accuracy of XRT was described in a previous paper. Here we update the past analysis using the complete data set of the Crab pulsar observations up to October 2022 and using a new version of the data-processing software package that includes corrections to several issues that could have affected the previous results. Methods. We evaluate the accuracy of the Crab pulse period determination using the folding technique and the pulse-phase analysis and compare our results with the values derived from radio observations. We also check the absolute time reconstruction, measuring the phase position of the main peak in the Crab profile and comparing it with the value reported in the literature, which is based on Rossi X-Ray Timing Explorer (RXTE) observations. Results. We find that the accuracy in period determination for the Crab pulsar is of the order of a few picoseconds for the observations with the largest data time span. The absolute time reconstruction, measured using the position of the main pulse peak, shows that the main peak precedes the phase of the position reported in the literature for RXTE by ~263 µs on average. This corresponds to 0.982 in phase, with an observed dispersion of ±0.02 in phase values. We also find that observations very close in time (down to ~1 day separation) show a significant variation in absolute phase.

History

Author affiliation

College of Science & Engineering Physics & Astronomy

Published in

Astronomy & Astrophysics

Volume

692

Pagination

A234 - A234

Publisher

EDP Sciences

issn

0004-6361

eissn

1432-0746

Language

en

Deposited by

Dr Phil Evans

Deposit date

2025-01-02

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