Skip to main content

Digital Trends may earn a commission when you buy through links on our site. Why trust us?

Largest ever group of lonely rogue planets discovered in Milky Way

Deep in the cold, dark emptiness of interstellar space, you can find some lonely planets roaming freely and not orbiting a star. Known as rogue planets, these objects are elusive and are rarely discovered due to being difficult to spot — but a new study has found the largest collection of rogue planets to date, located in a region of the Milky Way called the Upper Scorpius OB stellar association.

Finding rogue planets is hard because, unlike stars, planets are dim and give off very little light, and these tiny points have to be picked out from a background of bright stars. But an international team was able to spot this group of rogue planets by using a combination of both new observations and archival data from a large number of sources including telescopes of the European Southern Observatory, the Canada-France-Hawaii Telescope, and the Subaru Telescope. In total, the data they used added up to 80,000 wide-field images taken over 20 years of observations.

Artist’s impression shows an example of a rogue planet with the Rho Ophiuchi cloud complex visible in the background.
This artist’s impression shows an example of a rogue planet with the Rho Ophiuchi cloud complex visible in the background. Rogue planets have masses comparable to those of the planets in our Solar System but do not orbit a star, instead, roaming freely on their own. ESO/M. Kornmesser

“We measured the tiny motions, the colors and luminosities of tens of millions of sources in a large area of the sky,” explained lead author Núria Miret-Roig. “These measurements allowed us to securely identify the faintest objects in this region.” Using this technique, the researchers found at least 70 rogue planets from the data. “We did not know how many to expect and are excited to have found so many,” said Miret-Roig.

Studying these rogue planets, or Free-Floating Planets (FFPs), in more detail could help us learn about planet composition and formation, according to project leader Hervé Bouy: “The FFPs we identified are also excellent targets for follow-up studies. In particular, they will be essential to study planetary atmospheres in the absence of a blinding host star, making the observation far easier and more detailed. The comparison with atmospheres of planets orbiting stars will provide key details about their formation and properties. Additionally, studying the presence of gas and dust around these objects, what we call ‘circumplanetary discs’, will shed more light on their formation process.”

This could be just the tip of the iceberg where rogue planets are concerned. There could potentially be billions of them in our galaxy. “Assuming the fraction of FFPs that we measured in Upper Scorpius is similar to that of other star-forming regions, there could be several billions of Jupiters roaming the Milky Way without a host star. This number would be even greater for Earth-mass planets since they are known to be more common than massive planets.”

The research is published in the journal

Nature

.

Georgina Torbet
Georgina is the Digital Trends space writer, covering human space exploration, planetary science, and cosmology. She…
James Webb captures image of the most distant star ever discovered
A massive galaxy cluster called WHL0137-08 contains the most strongly magnified galaxy known in the universe’s first billion years: the Sunrise Arc, and within that galaxy, the most distant star ever detected, nicknamed Earendel.

The James Webb Space Telescope has captured a stunning image of the most distant star ever discovered. Discovered by Hubble in 2020, the star named Earendel is located an astonishing 28 billion light-years away. While in the previous Hubble image, the star was only visible as a small blob, these new observations from Webb are detailed enough to reveal information about the star like its type and information about the galaxy in which it resides.

The Webb image shows a galaxy cluster called WHL0137-08, which is so massive that it bends spacetime and acts like a magnifying glass for the more distant galaxies behind it. Some of these distant galaxies being magnified include one called the Sunrise Arc, which hosts Earendel. The Sunrise Arc is located near the end of one of the spikes from the bright central star, at around the five o'clock position. A zoomed-in version of the image shows the Arc and Earendel within t.

Read more
Webb spots water vapor in a planet-forming disk
An artist's concept portraying the star PDS 70 and its inner protoplanetary disk.

One of the big open questions about Earth and how life formed here is where the planet's water came from. Water is essential to life as we know it, but many scientists think that water did not originally form on Earth -- rather, it may have been carried here by asteroids. Recently, though, astronomers have discovered water vapor in the planet-forming region of a star, suggesting that future planets which form here might have access to water right from the start.

The study used the James Webb Space Telescope to look at star PDS 70, which is cooler and much younger than our sun. The star has two gas giant planets orbiting it, but it is also still forming planets and has two protoplanetary disks of dust and gas swirling around it. The inner disk, which is in a region comparable to the distance of the Earth from the sun, is where the water vapor was detected.

Read more
How to watch SpaceX launch largest ever commercial comms satellite on Friday
SpaceX's Falcon Heavy rocket heads to space on Tuesday, November 1, 2022.

Hughes JUPITER 3 Mission

UPDATE: SpaceX called off Wednesday night's Falcon Heavy launch just a few minutes before it was set to lift off. The company had hoped to try again on Thursday night but is now targeting Friday night so that it can complete vehicle checkouts. Full details below.

Read more