A new book offers a behind-the-scenes look at the Event Horizon Telescope collaboration
Science News said:Right now, a ragtag team of astronomers, assembled from institutes across the globe, may be peering in wonder at the first picture of a black hole’s shadow. The quest to create such an image has involved a massive level of scientific coordination, combining data from telescopes at eight observatories scattered from the South Pole to Hawaii to the Atacama Desert in Chile. In Einstein’s Shadow, journalist Seth Fletcher provides a twisting narrative of the project’s inception and how it grew into a worldwide effort.
Called the Event Horizon Telescope, or EHT, the project is “the biggest telescope in the history of humanity,” EHT director Shep Doeleman of the Harvard-Smithsonian Center for Astrophysics says in the book. EHT unifies far-flung radio telescopes through a technique called very long baseline interferometry, which involves combining the light waves spotted by each telescope to determine how the light adds up, through a process called interference. Using this technique, EHT can achieve resolution equivalent to picking out a doughnut on the moon. That extreme capability is what’s needed to capture a picture of EHT’s main target: the gigantic black hole at the center of the Milky Way.
EHT captured its first data in 2006, but has yet to produce an image of a black hole. After adding more telescopes and improving the technology, in April 2017, EHT took data aimed at capturing the silhouette of the Milky Way’s central black hole (SN Online: 4/5/17). Those data are still being analyzed.
No one has ever directly seen a black hole, so scientists still debate the details of what black holes are like. A boundary known as an event horizon is thought to exist at the edge of each black hole. This border, beyond which nothing can escape (SN: 5/31/14, p. 16), is what EHT is attempting to image.
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