Mysterious Radio Signal May Be Coming From One of the Galaxy's Rare Stars

Mysterious Radio Signal May Be Coming From One of the Galaxy’s Rare Stars

Written by Fabio Lucas Carvalho

Published on 16/12/2024 at 09:17

Updated on 16/12/2024 at 09:19

Foto: Reprodução

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Astronomers Discover A New Source Of Curious Radio Waves 5,000 Light Years Away

In recent years, a series of intriguing radio signals has challenged astronomical understanding. The first clue emerged from a radio telescope in the Western Australian desert, which detected a strange radio signal coming from 4,000 light years from Earth.

The radio signal flashed like a pulsar, but with a much longer interval between pulses and an unusual pulse duration.

These characteristics, previously unexplained, led scientists to investigate further what could be causing such emissions.

ARTICLE CONTINUES BELOW

The Discoveries That Challenged Science

In 2022, astronomers discovered intermittent signals recorded by the Murchison Widefield Array (MWA), a low-frequency radio telescope.

The first discovery, known as GLEAM-X J162759.5−523504.3, emitted radio waves lasting from 30 to 60 seconds, every 18 minutes.

However, this signal stopped emitting in 2018, leaving scientists without answers. In 2023, another radio signal, GPM J1839-10, was found from additional observations of the MWA.

This one, in turn, emitted bursts of radio waves with a frequency of 22 minutes, having been detected since 1988.

These signals were initially attributed to pulsars, which are neutron stars that emit beams of radio waves as they spin.

However, the characteristics of the observed signals do not exactly match the expected behavior of pulsars, mainly due to their duration and specific intervals between pulses.

The MeerKAT and MWA were needed to locate the star. (
Hurley-Walker et al. )

The Final Answer: A Rare Stellar System

The most recent discovery, GLEAM-X J0704-37, proved to be key to understanding these signals.

Detected in a much less crowded region of the sky, this peculiar radio signal was traced to a star failing in a distant region of the Milky Way, in the constellation of Puppis.

**The signal was detected in a less crowded part of the sky, within the constellation of Puppis, allowing the team to locate its origin in the sky.**

A spectral analysis of the star revealed that it was an M-type red dwarf, a very common type of star in the galaxy, but invisible to the naked eye due to its low luminosity.

However, the mere presence of a red dwarf did not explain the radio emissions. The team of astronomers led by astrophysicist Natasha Hurley-Walker suggested that there was something more in this stellar system: a white dwarf, the collapsed remnant of a dead star.

This ultra-dense object, with up to 1.4 times the mass of the Sun, may be generating the radio beams from interactions with the red dwarf.

What Is Behind The Radio Waves?

Calculations indicate that the two stars may be in a close enough orbit for the white dwarf to be accumulating material from the red dwarf.

This “feeding” process could generate the observed radio waves, with intense beams coming from the poles of the white dwarf.

Although a direct notification of the presence of the white dwarf has not yet been made, further observations, both in radio and ultraviolet, are being conducted to confirm this theory.

If confirmed, this discovery would make GLEAM-X J0704-37 one of the rarest types of known pulsars, a white dwarf pulsar.

This discovery would not only help solve the mystery of these curious signals but also expand our understanding of binary systems and the characteristics that occur when stars of different types interact in such complex ways.

This study, led by an international collaboration of astronomy, promises to redefine our knowledge of stars, their interactions, and the mysterious radio emissions that continue to challenge scientists with each new discovery.

Mysterious Radio Signal May Be Coming From One of the Galaxy’s Rare Stars