Shara knew if he could find other images of this star from decades ago and compare it to this newfound photo, he could track its movement over time, rewind the clock, and determine its position nearly 600 years ago, when the Korean astronomers made their observations. Photographs from the 1980s and 1990s showed the star had indeed moved between then and now, but not enough for the researchers to accurately calculate its position in the 15th century. So they looked further back in time, at a photographic plate from 1923 they got through a Harvard project to digitize a century’s worth of sky observations. They measured how much the star moved in the last century, and extrapolated that to five more centuries. As they rewound the clock, the star moved closer to the nova shell. According to their calculations, the star was right in the center of the nova shell on the day the Koreans saw a mystery star, which means it caused the cosmic explosion.Shara kept up his search for decades because he wanted to confirm a theory on nova explosions he wrote in 1986, when he was working at the Space-Telescope Science Institute at Johns Hopkins. After a classical nova, the process starts all over again. The white dwarf begins again to chip away at its companion. Smaller explosions, known as dwarf novae, may occur as it gathers its fellow star’s material. Eventually, there’s enough stolen material to produce another full-sized nova. Shara posited that dwarf novae and full-sized novae are the same systems, seen at different times, rather than entirely separate objects, as some astronomers have suggested. Now, the search has paid off. Shara found that the star system responsible for the nova in 1437 A.D. shows dwarf novae in photos from the 1930s and 1940s, which supports his claim that both phenomena originate from a single source.
Shara said he and his colleagues couldn’t have investigated this mystery without online astronomical catalogs, which weren’t around in the 1980s. The catalogs are like Google search engines for hundreds of millions of stars.
“If huge databases had existed then, I would have unraveled it right then and there,” he said. “It was only because of this ability to check something like a million astronomical papers and books and many petabytes of images, all within a few minutes, and correlate things with each other that I was able to find this.”