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Einstein was right, McGill astrophysicists say


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Observations of unique twin-pulsar star system show effects of general relativity
Researchers at McGill University’s Department of Physics - along with colleagues from several countries - have confirmed a long-held prediction of Albert Einstein’s theory of general relativity, via observations of a binary-pulsar star system. Their results will be published July 3 in the journal Science.

Pulsars are small, ultradense stellar objects left behind after massive stars die and explode as supernovae. They typically have a mass greater than that of our Sun, but compressed to the size of a city like Montreal. They spin at staggering speeds, generate huge gravity fields and emit powerful beams of radio waves along their magnetic poles. These illuminate Earth-based radio-telescopes like rotating lighthouse beacons as the pulsar spins. More than 1,700 pulsars have been discovered in our galaxy, but PSR J0737-3039A/B, discovered in 2003, is the only known double-pulsar system; that is, two pulsars locked into close orbit around one another. The two pulsars are so close to each other, in fact, that the entire binary could fit within our Sun. PSR J0737-3039A/B lies about 1,700 light years from Earth.

This new test of Einstein’s theory was led by McGill astrophysics PhD candidate René Breton and Dr. Victoria Kaspi, leader of the McGill University Pulsar Group.

“A binary pulsar creates ideal conditions for testing general relativity’s predictions because the larger and the closer the masses are to one another, the more important relativistic effects are,” Breton explained.

“Binary pulsars are the best place to test general relativity in a strong gravitational field,” agreed Kaspi, McGill’s Lorne Trottier Chair in Astrophysics and Cosmology and Canada Research Chair in Observational Astrophysics. “"Einstein’s theory predicted that, in such a field, an object’s spin axis should slowly change direction as the pulsar orbits around its companion. Imagine a spinning top when its slightly non-vertical: the spin axis slowly changes direction, an elegant motion called ’precession.’"

The researchers discovered that one of the two pulsars is indeed precessing -- just as Einstein’s 1915 theory predicts. If Einstein had been wrong, the pulsar wouldn’t be precessing, or would precess in some other way.

Pulsars are too small and too distant to to allow us to directly observe their orientation, the researchers explained. However, they soon realized they could make such measurements using the eclipses visible when one of the twin pulsars passes in front of its companion. When this occurs, the magnetosphere of the first pulsar partly absorbs the radio “light” being emitted from the other, which allows the researchers to determine its spatial orientation. After four years of observations, they determined that its spin axis precesses just as Einstein predicted.

Even though spin precession has been observed in Earth’s solar system, differences between general relativity and alternative theories of gravity might only shake out in extremely powerful gravity fields such as those near pulsars, Breton said.

“However, so far, Einstein’s theory has passed all the tests that have been conducted, including ours. We can say that if anyone wants to propose an alternative theory of gravity in the future, it must agree with the results that we have obtained here.”

Breton, Kaspi and colleagues in Canada, the United Kingdom, the U.S., France and Italy studied the twin-pulsar using the 100-metre Robert C. Byrd Green Bank Radio Telescope at the National Radio Astronomy Observatory in Green Bank, WV.

“I think that if Einstein were alive today, he would have been absolutely delighted with these results,” said Dr. Michael Kramer, Associate Director of the Jodrell Bank Centre for Astrophysics at Manchester University. “Not only because it confirms his theory, but also because of the novel way the confirmation came about.”



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