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W3100364852 endingPage "162" @default.
W3100364852 startingPage "162" @default.
W3100364852 abstract "We introduce a pipeline including multifractal detrended cross-correlation analysis (MF-DXA) modified by either singular value decomposition or the adaptive method to examine the statistical properties of the pulsar timing residual (PTR) induced by a gravitational wave (GW) signal. We propose a new algorithm, the so-called irregular MF-DXA, to deal with irregular data sampling. Inspired by the quadrupolar nature of the spatial cross-correlation function of a gravitational wave background (GWB), a new cross-correlation function, , derived from irregular MF-DXA will be introduced. We show that this measure reveals the quadrupolar signature in the PTRs induced by stochastic GWB. We propose four strategies based on the y-intercept of fluctuation functions, the generalized Hurst exponent, and the width of the singularity spectrum to determine the dimensionless amplitude and power-law exponent of the characteristic strain spectrum as for stochastic GWB. Using the value of the Hurst exponent, one can clarify the type of GWs. We apply our pipeline to explore 20 ms pulsars observed by the Parkes Pulsar Timing Array. The computed scaling exponents confirm that all data are classified into a nonstationary class implying the universality feature. The value of the Hurst exponent is in the range H ∈ [0.56, 0.87]. The q-dependency of the generalized Hurst exponent demonstrates that the observed PTRs have multifractal behavior, and the source of this multifractality is mainly attributed to the correlation of data, which is another universality of the observed data sets. Multifractal analysis of available PTR data sets reveals an upper bound on the dimensionless amplitude of the GWB, ." @default.
W3100364852 created "2020-11-23" @default.
W3100364852 creator A5034513784 @default.
W3100364852 creator A5045310253 @default.
W3100364852 creator A5053446393 @default.
W3100364852 date "2018-09-12" @default.
W3100364852 modified "2023-10-14" @default.
W3100364852 title "Multifractal Analysis of Pulsar Timing Residuals: Assessment of Gravitational Wave Detection" @default.
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