03/02/2023 / By Kevin Hughes
A solar radio burst with a signal pattern similar to a human heartbeat was detected from a solar flare.
According to the international team of researchers that detected the signal, it came from within a C-class solar flare located more than 5,000 kilometers above the sun’s surface. The researchers were able to determine the source of the signal after examining microwave observations of a solar flare event. The said event, which occurred on July 13, 2017, had been captured by the New Jersey Institute of Technology‘s (NJIT) Expanded Owens Valley Solar Array (EOVSA).
EOVSA usually observes the sun in a broad range of microwave frequencies over 1 to 18 gigahertz (GHz), and is sensitive to radio radiation sent by high-energy electrons in the sun’s atmosphere – which is energized in solar flares.
Lead study author Yuankun Kou of Nanjing University (NJU) noted that the team discovered radio bursts displaying a signal pattern repeating every 10-20 seconds “like a heartbeat.” (Related: Astronomers pick up radio signals from planets outside our solar system for the first time.)
Solar radio bursts are strong blasts of radio waves from the sun, which are often connected with solar flares and have been reported to display signals with repeating patterns. “The repeating patterns are not uncommon for solar radio bursts. But interestingly, there is a secondary source we did not expect,” Kou said.
According to the study authors, their findings could assist their fellow scientists in understanding the physical processes behind the energy release of solar flares – the solar system’s most powerful explosions.
“The discovery is unexpected. This beating pattern is important for understanding how energy is released and is dissipated in the sun’s atmosphere during these incredibly powerful explosions on the sun,” said corresponding author and NJIT astronomer Sijie Yu.
“However, the origin of these repetitive patterns – also called quasi-periodic pulsations (QPPs) – has long been a mystery and a source of debate among solar physicists.”
Yu posited that the signals likely originate from quasi-repetitive magnetic reconnections at the solar flare’s current sheet. He added that the detection can help them determine which of the two sources caused the other one.
Meanwhile, study co-author and NJU astronomy professor Xin Cheng remarked: “We wanted to know how the periodicity occurs in the current sheet. What is the physical process driving the periodicity and how is it related to the formation of the QPPs?”
The team’s investigation showed there are magnetic islands, or bubble-like structures that formed in the current sheet, quasi-periodically moving to the flaring region. According to Cheng, the appearance of magnetic islands within the long-stretched current sheet plays a key role in tweaking the energy release rate during an eruption. The quasi-periodic energy release process leads to a repeating production of high-energy electrons that manifest as QPPs in the microwave and soft X-ray wavelengths.
Yu stated the findings of the study cast fresh light on an important phenomenon underlying the reconnection process that drives these explosive events. He ultimately remarked that their paper prompts a reexamination of the interpretations of earlier reported QPP events and their implications on solar flares.
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