CHINESE ACADEMY OF SCIENCES

A fast radio burst (FRB) is a kind of mysterious radio flash lasting only a few thousandths of a second. Confirmed to be of cosmological origin in 2016, FRBs have the potential to provide insights into a wide range of astrophysical problems.

Dr. Niu Chenhui, of the team led by Dr. Li Di and Dr. Zhu Weiwei at the National Astronomical Observatories of the Chinese Academy of Sciences, discovered three new FRBs with high dispersion measure from the massive data collected by the Five-hundred-meter Aperture Spherical radio Telescope (FAST).

The FRB samples from FAST all locate in a previously empty region (red ellipse) in the brightness (vertical) -cosmic ages (horizontal) space. [IMAGE: NIU CHENHUI ET AL.]

The team’s findings were published in The Astrophysical Journal Letters on March 3.

The discovery indicated that these three FRBs originated billions of years ago when the universe was still in its youth.

The newly-discovered FRBs, along with the first FRB detected by FAST last year, suggest that there could be as many as 120,000 detectable FRBs arriving on Earth every day.

“We are catching up in terms of data processing and expecting more discoveries from FAST, the most sensitive radio telescope in the world,” said Dr. Niu Chenhui, the first author of the paper.

Comparing FRB samples from the Parkes telescope and the Australian Square Kilometre Array Pathfinder (ASKAP) telescope, researchers from Australia revealed the relationship between the fluence (integrated flux) and the dispersion measure of FRBs. The new discovery helps extend such a relationship and covers some previously less explored parameter space.

“Combined with simulations, FAST could detect FRBs with redshift larger than 3, i.e., more than 10 billion years old,” said Dr. Niu.

The distribution of the dispersion measures of these FRBs was sensitive to the shape of the intrinsic brightness distribution of these cosmic events. “More discoveries from FAST will thus help reveal the as-yet-unknown origin of FRBs,” said Dr. Li Di, the corresponding author of the study and the chief scientist of FAST.

 

Source: National Astronomical Observatories,

Chinese Academy of Sciences

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