Constraining the Nanohertz Gravitational Wave Background with an X-ray Pulsar Timing Array from NICER observations

Abstract

We present constraints on the nanohertz gravitational wave background (GWB) using X-ray pulsar timing data from the Neutron Star Interior Composition Explorer(NICER). By analyzing six millisecond pulsars over a six-year observational baseline, we employed a Bayesian framework to model noise components and search for a common red signal consistent with a GWB from supermassive black hole binaries (assuming a spectral index γ gwb=13/3). Our results show no significant evidence for a GWB, yielding a 95\% upper limit of 10(A gwb)<-13.4. Weak evidence for Hellings-Downs spatial correlations was found (S=2.5), though the signal remains statistically inconclusive. Compared to radio and γ-ray pulsar timing arrays, the NICER constraint is currently less stringent but demonstrates the feasibility of X-ray timing with NICER for GWB studies and highlights the potential for improved sensitivity with future X-ray missions.

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