The double pulsar system PSR J0737-3039A/B is unlike anything else observed in our galaxy. The binary’s two members, called A and B for short, are radio pulsars that orbit in their mutual strong gravitational field. As a pair of cosmic clocks, the double pulsar offers unique opportunities to test general relativity and competing gravitational theories in the strong-field regime. In the latest of those tests, graduate student René Breton of McGill University and an international team determined the precession of B’s spin axis around the binary system’s total angular momentum. To do that, they measured the radio flux from A as it was periodically eclipsed by B. The data fit a model that included, among other parameters, the direction of B’s spin axis and the opacity of the plasma surrounding B, where A’s radio emission is absorbed. The deduced precession rate, about 5° per year with an uncertainty of about...

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