Galaxy Clusters Validate Einstein's Theory

Galaxy Clusters Validate Einstein's Theory

Testing gravity is simple: walk out of a second-floor window and see what happens. It's a lot tougher to test Albert Einstein's theory of gravity—the general theory of relativity—which says that the gravity of an object warps space and time around it. Although researchers have proved general relativity on the scale of the solar system, validating it on cosmic scales has been more challenging. That's exactly what a group of astrophysicists in Denmark have now done.

The researchers, led by Radek Wojtak of the Niels Bohr Institute at the University of Copenhagen, set out to test a classic prediction of general relativity: that light will lose energy as it is escaping a gravitational field. The stronger the field, the greater the energy loss suffered by the light. As a result, photons emitted from the center of a galaxy cluster—a massive object containing thousands of galaxies—should lose more energy than photons coming from the edge of the cluster because gravity is strongest in the center. And so, light emerging from the center should become longer in wavelength than light coming from the edges, shifting toward the red end of the light spectrum. The effect is known as gravitational redshifting.

Wojtak and his colleagues knew that measuring gravitational redshifting within a single galaxy cluster would be difficult because the effect is very small and needs to be teased apart from the redshifting caused by the orbital velocity of individual galaxies within the cluster and the redshifting caused by the expansion of the universe. The researchers approached the problem by averaging data collected from 8000 galaxy clusters by the Sloan Digital Sky Survey. The hope was to detect gravitational redshift "by studying the properties of the redshift distribution of galaxies in clusters rather than by looking at redshifts of individual galaxies separately," Wojtak explains.

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