Mysterious radio signals from space been known to repeat, but for the first time, researchers have been noticed a pattern in a series of bursts coming from a single source half a billion light-years from Earth.
Fast radio bursts, or FRBs, are millisecond-long bursts of radio waves in space.
Individual radio bursts emit once and don’t repeat. But repeating fast radio bursts send out a short, energetic radio wave multiple times. And usually, when they repeat, it’s sporadic or in a cluster, according to previous observations.
Between September 16, 2018, and October 30, 2019
researchers with the Canadian Hydrogen Intensity Mapping Experiment/Fast Radio Burst Project collaboration detected a pattern in bursts occurring every 16.35 days. Over the course of four days, the signal would release a burst or two each hour. Then, it would go silent for another 12 days.
The findings are included in the pre-print of a paper on arXiv, meaning the paper has been moderated but not fully peer-reviewed. The authors of the paper are part of the CHIME/FRB collaboration, which has published a multitude of fast radio burst studies in recent years.
The signal is a known repeating fast radio burst, FRB 180916.J0158+65. Last year, the CHIME/FRB collaboration detected the sources of eight new repeating fast radio bursts, including this signal. The repeating signal was traced to a massive spiral galaxy around 500 million light-years away.
Researchers hope that by tracing the origin of these mysterious bursts, they can determine what caused them. So far, they have traced single and repeating fast radio bursts back to very different sources, which deepens the mystery.
The first repeating fast radio burst traced,
FRB 121102, linked back to a small dwarf galaxy containing stars and metals. FRB 180916 traced as to one of the spiral arms of a Milky Way-Esque galaxy. It was also within a star-forming region of the arm, the researchers said.
Now, the evidence of a pattern in the signal adds to the question of what could cause these bursts to emit the way that they do. Read more