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arxiv: 1407.1838 · v1 · pith:I3ATN2VInew · submitted 2014-07-07 · 🌀 gr-qc · astro-ph.IM

New advances in the Gaussian-process approach to pulsar-timing data analysis

classification 🌀 gr-qc astro-ph.IM
keywords analysisdatapulsar-timingschemesbayesianchaindatasetsinference
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In this work we review the application of the theory of Gaussian processes to the modeling of noise in pulsar-timing data analysis, and we derive various useful and optimized representations for the likelihood expressions that are needed in Bayesian inference on pulsar-timing-array datasets. The resulting viewpoint and formalism lead us to two improved parameter-sampling schemes inspired by Gibbs sampling. The new schemes have vastly lower chain autocorrelation lengths than the Markov Chain Monte Carlo methods currently used in pulsar-timing data analysis, potentially speeding up Bayesian inference by orders of magnitude. The new schemes can be used for a full-noise-model analysis of the large datasets assembled by the International Pulsar Timing Array collaboration, which present a serious computational challenge to existing methods.

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