A Galaxy 5 Billion Light-Years Away Just Taught Us Something New About the Universe, Cosmic Magnets Astronomers have observed that a galaxy five billion light-years away from Earth has a magnetic field very similar to our own. We’ve never observed a coherent magnetic field in a galaxy this far away before, and the discovery provides critical insights into the formation and evolution of magnetism in the universe.
Because this galaxy is five billion light-years away from the Milky Way, it is also five billion years younger. By observing that it has a magnetic field similar in configuration and strength to our own galaxy, these researchers are providing evidence that galactic magnetic fields form during the early stages of a galaxy’s existence and enjoy relative stability afterward.
“This means that magnetism is generated very early in a galaxy’s life by natural processes, and thus that almost every heavenly body is magnetic,” co-author Professor Bryan Gaensler of the Dunlap Institute for Astronomy & Astrophysics, University of Toronto, said in a statement. “The implication is that we need to understand magnetism to understand the universe.”
In order to study how galactic magnetic fields evolve, researchers need to observe galaxies at various distances from Earth, since those observations automatically provide them with data on galaxies of various ages. However, we don’t have a way to directly observe magnetic fields, which means making these observations isn’t easy.
To that end, scientists instead look for Faraday rotation, the “fingerprint” magnetic fields leave on light that passes through them. In this case, the observation was made possible by a quasar on the other side of the galaxy, the light from which passed through the magnetic field of the studied galaxy.
Mysteries of Magnetism Magnetism exists throughout the cosmos. Gaseous nebulae, planets, stars, whole galaxies, and the universe itself are all magnetic. When a solid body, such as Earth, is magnetic, it just means the core of the body works like a massive bar magnet with poles.
However, the larger magnetic fields of entire galaxies, such as the Milky Way, are less understood. They are powered not by a core that carries current, but by countless drifting electrons floating through space. This is why the magnetism of our galaxy is millions of times weaker than that of our own planet and lacks a single polar opposition. Instead, various galactic neighborhoods each have their own poles.
“Nobody knows where cosmic magnetism comes from or how it was generated,” explained Gaensler in the statement. “But now, we have obtained a major clue needed for solving this mystery, by extracting the fossil record of magnetism in a galaxy billions of years before the present day.”
Gaensler is right in his observation that relatively little is known about cosmic magnetism, but what we do know highlights its importance. Magnetism is critical to the formation of stars like our Sun, and the Earth’s magnetism protects us from harmful radiation. Magnetism in space also generates high-speed, high-energy particles that can cause random genetic mutations on Earth, driving evolution.
In other words, magnetism truly shapes life and the universe as we know it.
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