Estimating 5-year rotation stability of PSR B1937+21 using NICER observations

Estimating 5-year rotation stability of PSR B1937+21 using NICER observations

Using observations of millisecond pulsars (MSPs) can construct a time scale that is independent of terrestrial time standards. We investigate the 5-year rotation stability of PSR B1937 + 21 (PSR J1939 + 2134) using the Neutron Star Interior Composition Explorer (NICER) observations and compare it wi...

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Bibliographic Details
Published in:Acta astronautica Vol. 210; pp. 141 - 150
Main Authors: Sun, Haifeng, Yao, Dingkai, Shen, Lirong, Deng, Zhongwen, Bao, Weiming, Li, Xiaoping, Wang, Wencong, Zhou, Qingyong
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-09-2023
Subjects:
Millisecond pulsar
NICER
Parameter fit
Rotation stability
NICER
Parameter fit
Rotation stability
Millisecond pulsar
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Summary:Using observations of millisecond pulsars (MSPs) can construct a time scale that is independent of terrestrial time standards. We investigate the 5-year rotation stability of PSR B1937 + 21 (PSR J1939 + 2134) using the Neutron Star Interior Composition Explorer (NICER) observations and compare it with that of the radio data from North American Nanohertz Observatory for Gravitational Waves (NANOGrav). We implement a data screening method to improve the accuracy of X-ray pulse times of arrival (TOAs), and develop a data-analysis framework based on an iterative least square technique for the X-ray timing parameter fitting. Finally, we carefully consider the main factors affecting the pulsar rotation stability. We find that the root mean square error (RMS) of the timing residuals of PSR B1937 + 21 based on NICER observations is 4.7 μs (1σ), and the 5-year rotation stability is 1.7 × 10−14 the accuracy of which is comparable to that of NANOGrav data. In order to ensure less than 10−14 of the main factors influencing the rotation stability on 5-year time scale, the errors of R.A. and Dec shall be no more than 2 mas and 6 mas respectively, while the amplitudes of the white noise and red noise must be less than 5 μs and 1 μs, respectively. •We adopted χ2-test technique to implement energy and flux filtering to improve the accuracy of X-ray pulse TOAs.•We gave the 5-year timing model of PSR B1937+21 by developing a data-analysis framework based on iterative least square method.•We reported that the 5-year rotation stability is 1.7×10−14, whose accuracy is comparable to that of NANOGrav data.•We analyzed the main factors of the pulsar rotation stability including planetary ephemeris, R.A., Dec, etc.
ISSN:0094-5765
1879-2030
DOI:10.1016/j.actaastro.2023.04.044