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We use seven years of millisecond pulsar-timing data to derive rigorous upper bounds on a cosmic gravitational-wave background. The energy density per logarithmic frequency interval near f=0. 14 yr^-1 must be 910^-8 (68% confidence), or 410^-7 (95% confidence) of the density required to close the Universe. We detect a red-noise signal in the residuals for one pulsar. Its spectrum appears flatter than the f^-5 power law expected for a gravity-wave background; likely noise sources include changes in the interstellar medium and pulsar rotational instabilities.
Stinebring et al. (Mon,) studied this question.