Pulsar timing arrays: the emerging gravitational-wave landscape

Abstract

Pulsar Timing Array (PTA) experiments have entered a new era with evidence for a nanoHertz gravitational wave background (GWB). This review describes the physics of detection, detailing the noise models and cross-correlation techniques required to isolate the Hellings-Downs curve. We discuss astrophysical implications, arguing that the perceived tension between current amplitudes and standard merger models is largely resolved by new insights into supermassive black hole binary populations. Beyond the stochastic background, we review the framework for multi-messenger continuous gravitational-wave searches, highlighting targeted search campaigns and rigorous detection protocols. We also examine the potential to probe New Physics, including cosmic strings and ultralight dark matter. Critical challenges are addressed, including small-scale leakage bias in anisotropy searches and the separation of deterministic signals from the GWB and pulsar noise. Finally, we outline the field's future, from rapid data combination strategies to the sensitivity gains expected from the Square Kilometre Array Observatory (SKAO) and DSA-2000.

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