Testing strengths, limitations, and biases of current pulsar timing arrays'detection analyses on realistic data

Serena Valtolina*, Golam Shaifullah, Anuradha Samajdar, Alberto Sesana

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review

Abstract

State-of-the-art searches for gravitational waves (GWs) in pulsar timing array (PTA) datasets model the signal as an isotropic, Gaussian, and stationary process described by a power law. In practice, none of these properties are expected to hold for an incoherent superposition of GWs generated by a cosmic ensemble of supermassive black hole binaries (SMBHBs). This stochastic signal is usually referred to as the GW background (GWB) and is expected to be the primary signal in the PTA band. We performed a systematic investigation of the performance of current search algorithms, using a simple power-law model to characterise GW signals in realistic datasets. We used, as the baseline dataset, synthetic realisations of timing residuals mimicking the European PTA (EPTA) second data release (DR2). Thus, we included in the dataset uneven time stamps, achromatic and chromatic red noise, and multi-frequency observations. We then injected timing residuals from an ideal isotropic, Gaussian, single power-law stochastic process and from a realistic population of SMBHBs, performing a methodical investigation of the recovered signal. We found that current search models are efficient at recovering the GW signal, but several biases can be identified due to the signal-template mismatch, which we identified via probability-probability (P- P) plots and quantified using Kolmogorov-Smirnov (KS) statistics. We discuss our findings in light of the signal observed in the EPTA DR2 and corroborate its consistency with a SMBHB origin.

Original languageEnglish
Article numberA201
JournalAstronomy and Astrophysics
Volume683
DOIs
Publication statusPublished - 1 Mar 2024

Bibliographical note

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Keywords

  • Black hole physics
  • Gravitation
  • Gravitational waves
  • Methods: data analysis
  • Pulsars: general

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