![]() Ghez won the Nobel Prize in Physics in 2020. They reached that estimate by tracking the orbits of stars and gas clouds swirling about the center of the Milky Way and measuring their velocities at one-third the speed of light. Since 1974, the center of the Milky Way has been known to coincide with a faint source of radio noise called Sagittarius A* (pronounced Sagittarius A-star).Īstronomers including Andrea Ghez of the University of California, Los Angeles and Reinhard Genzel of the Max Planck Institute for Extraterrestrial Physics had calculated that whatever was there had the mass of 4.14 million suns and was confined within a sphere the size of Mercury’s orbit around the sun. Dense wrinkles in the primordial energies of the Big Bang? Monster runaway stars that collapsed and consumed their surroundings in the dawning years of the universe? What gave rise to such behemoths of nothingness is a mystery. Their discovery in the early 1960s led physicists and astronomers to take seriously the notion that black holes existed. Such fireworks - quasars - can outshine galaxies by a thousandfold. Astronomers still do not understand how these supermassive black holes have grown so big. Many are the remains of dead stars that collapsed inward on themselves and just kept going.īut there appears to be a black hole at the center of nearly every galaxy, ours included, that can be millions or billions of times as massive as our sun. Galison said.Īt Thursday’s news event, Michael Johnson, a team member and also of the Harvard-Smithsonian Center, said: “This is an extraordinary verification of Einstein’s general theory of relativity.” Einstein’s bad dreamīlack holes were an unwelcome consequence of the general theory of relativity, which attributed gravity to the warping of space and time by matter and energy, much in the way that a mattress sags under a sleeper.Įinstein’s insight led to a new conception of the cosmos, in which space-time could quiver, bend, rip, expand, swirl and even disappear forever into the maw of a black hole, an entity with gravity so strong that not even light could escape it.Įinstein disapproved of this idea, but the universe is now known to be speckled with black holes. “The similitude across such an immense scale is astonishing,” Dr. In an interview, Peter Galison, a physicist and historian at Harvard and a member of the collaboration, noted that the M87 black hole was 1,500 times as massive as the Milky Way’s typically in physics or astronomy, when something increases by a factor of 10 or more, everything changes. Özel said that the similarity of the new picture to the one from 2019 demonstrated that the earlier image was not a coincidence. The team’s results were published Thursday in The Astrophysical Journal Letters.ĭr. Özel is part of the Event Horizon Telescope project, a collaboration of more than 300 scientists from 13 institutions that operates an ever-growing global network of telescopes that compose one large telescope as big as Earth. Oohs and aahs broke out at the National Press Club in Washington when Feryal Özel of the University of Arizona displayed what she called “the first direct image of the gentle giant in the center of our galaxy.” She added: “It seems that black holes like doughnuts.”ĭr. The image, released in six simultaneous news conferences in Washington and around the globe, showed a lumpy doughnut of radio emission framing empty space. Astronomers announced on Thursday that they had pierced the veil of darkness and dust at the center of our Milky Way galaxy to capture the first picture of “the gentle giant” dwelling there: a supermassive black hole, a trapdoor in space-time through which the equivalent of four million suns have been dispatched to eternity, leaving behind only their gravity and violently bent space-time.
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