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Notes on the integration of numerical relativity waveforms

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arxiv 1006.1632 v3 pith:ZUD2UYWW submitted 2010-06-08 gr-qc

Notes on the integration of numerical relativity waveforms

classification gr-qc
keywords driftsnumericalstrainhoweverintegrationnon-lineardatadomain
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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A primary goal of numerical relativity is to provide estimates of the wave strain, $h$, from strong gravitational wave sources, to be used in detector templates. The simulations, however, typically measure waves in terms of the Weyl curvature component, $\psi_4$. Assuming Bondi gauge, transforming to the strain $h$ reduces to integration of $\psi_4$ twice in time. Integrations performed in either the time or frequency domain, however, lead to secular non-linear drifts in the resulting strain $h$. These non-linear drifts are not explained by the two unknown integration constants which can at most result in linear drifts. We identify a number of fundamental difficulties which can arise from integrating finite length, discretely sampled and noisy data streams. These issues are an artifact of post-processing data. They are independent of the characteristics of the original simulation, such as gauge or numerical method used. We suggest, however, a simple procedure for integrating numerical waveforms in the frequency domain, which is effective at strongly reducing spurious secular non-linear drifts in the resulting strain.

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