Journal
ASTROPHYSICAL JOURNAL
Volume 909, Issue 1, Pages -Publisher
IOP PUBLISHING LTD
DOI: 10.3847/1538-4357/abda4a
Keywords
Astrostatistics tools; Pulsars; Period search
Categories
Funding
- POR FESR Sardegna 20142020 Asse 1 Azione 1.1.3 [RICERCA_1C-181]
- Women In Science Excel (WISE) program of the Netherlands Organisation for Scientific Research (NWO)
- research grant iPeska under the INAF
- Max-Planck Society
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The search for astronomical pulsed signals in the radio band involves initial Fourier analysis and time series folding, followed by chi(2) or H-test evaluation to establish significance and shape of the pulse profiles, enhancing sensitivity to low-significance pulsar candidates and aiding in radio frequency interference rejection.
The search for astronomical pulsed signals within noisy data in the radio band is usually performed through an initial Fourier analysis to find candidate frequencies and then refined through the folding of the time series using trial frequencies close to the candidate. In order to establish the significance of the pulsed profiles found at these trial frequencies, pulsed profiles are evaluated with a chi(2) test to establish how much they depart from a null hypothesis where the signal is consistent with a flat distribution of noisy measurements. In high-energy astronomy, the chi(2) statistic has widely been replaced by the H-test, as they are more sensitive to extra information, such as the harmonic content of the pulsed profile. The H-test were originally developed for use with event data composed of arrival times of single photons, leaving it unclear how these methods could be used in radio astronomy. In this paper, we present a version of the H-test for pulse profiles with Gaussian uncertainties appropriate for radio or even optical pulse profiles. We show how these statistical indicators provide better sensitivity to low-significance pulsar candidates with respect to the usual chi(2) method and a straightforward way to discriminate between pulse profile shapes. Moreover, they provide an additional tool for radio frequency interference rejection.
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