On Thursday, astronomers announced the first observations of the effect of a black hole’s gravitational redshift — light coming from a star in the gravitational field near a black hole looked redder than it would’ve outside the black hole’s influence.The black hole responsible was Sagittarius A* (pronounced “Sagittarius A-star”), the supermassive black hole at the center of our Milky Way galaxy. Astronomers think that most large galaxies like the Milky Way should have supermassive black holes in their centers, but it wasn’t until the past couple decades that they had compelling evidence that Sgr A* is our supermassive black hole.The discovery of Sgr A* is credited to two astronomers, Bruce Balick and Robert L. Brown, who published a paper in 1974 describing a bright radio source in a small region at the very center of the Milky Way.Astronomers had known for a while that there were a lot of radio waves coming from near the Milky Way’s center. Karl G. Jansky , a physicist working for Bell Telephone Laboratories, was trying to identify sources of static the telephone company might have to deal with when he stumbled upon the discovery in the early 1930s. Jansky wanted to investigate further to find out why radio waves were coming from interstellar space, but Bell Labs was not interested, and no one else followed up on the discovery for several years.Even though the radio source was discovered in 1974, the name Sgr A* didn’t come around until 1982. Astronomers had proposed a couple other names, like GCCRS (for Galactic Center Compact Radio Source), but they didn’t catch on. Brown proposed the name Sagittarius A* because the source was inside a larger radio-emitting structure called Sagittarius A. The asterisk notation was used in atomic physics for atoms that are in a high-energy state, and Brown thought this would be a good analogy for the compact radio source giving energy to its surroundings.