Hubble discovers newborn planets hidden in the dancing shadows

Hubble discovers newborn planets hidden in the dancing shadows
Disks of gas and dust concentric around Star TW Hydrae

This artist’s concept is based on Hubble Space Telescope images of disks of gas and dust around the young star TW Hydrae. Hubble Space Telescope images show shadows engulfing the disks that surround the system. The explanation is that these shadows come from slightly inclined inner disks that prevent starlight from reaching the outer disk, thus casting a shadow. The disks are tilted slightly toward each other due to the gravitational force of the unseen planets distorting the disk structure. Credit: NASA, Aura/STScI, European Space Agency, Leah Hostack (STScI)

Unseen newborn planets stir up dust around a young star

Our world is so fickle that sometimes it likes to play hide and seek. In 2017, astronomers were surprised to see a huge shadow engulfing a disk of dust and gas surrounding the nearby young star TW Hydrae. The shadow is cast by an inner disk of dust and gas that is slightly inclined to the plane of the outer disk. The shadow can only be clearly seen because the system is tilted face-to-face on Earth, giving astronomers a bird’s-eye view of the disk as the shadow darts around the disk like a hand moving on a clock.

But the watch has two hands (for hours and minutes) that sweep at different rates. And it turns out TW Hydrae is, too. Astronomers used Hubble to find a second shadow emerging from another inner disk, tilted towards the two outer disks. Therefore, the system appears increasingly complex with at least three overlapping discs tilted slightly relative to each other. The disks are proxies for invisible planets around the star. Each planet pulls material near the star with its gravitational force and deforms what would be a perfectly flat pancake-shaped disk if the planets weren’t there. This is not surprising because the planets in our solar system have orbital planes that differ in inclination by a few degrees from each other. TW Hydrae gives astronomers a ringside seat to see what our solar system might have looked like during its formative years.

TW Hydri disc

Comparing images from the Hubble Space Telescope, which are several years apart, has revealed two eerie shadows moving counterclockwise across a disk of gas and dust surrounding the young star TW Hydrae. The disks tilt face-to-face on Earth, thus giving astronomers a bird’s-eye view of what’s going on around the star. The left photo, taken in 2016, shows just one shadow [A] It’s 11:00. This shadow is cast by an inner disk that is slightly inclined to the outer disk and blocks starlight. The image on the left shows a second shadow that has appeared from another intervening disk [C] 7:00 a.m., as shot in 2021. Original inner disc marked [B] in this subsequent presentation. Shadows rotate around the star at different rates like clockwise. They are evidence of two unseen planets that have pulled dust into their orbits. This makes them lean in slightly against each other. This is a visible light image taken with the Space Telescope’s Imaging Spectroradiometer. Synthetic color has been added to enhance detail. Credit: NASA, ESA, STScI, John Debes (AURA/STScI for ESA), Joseph DePasquale (STScI)

The Hubble Space Telescope follows a shadow play around the planet-forming disk

Young star TW Hydrae plays “shadow puppets” with the scientists watching him[{” attribute=””>NASA’s Hubble Space Telescope.

In 2017, astronomers reported discovering a shadow sweeping across the face of a vast pancake-shaped gas-and-dust disk surrounding the red dwarf star. The shadow isn’t from a planet, but from an inner disk slightly inclined relative to the much larger outer disk – causing it to cast a shadow. One explanation is that an unseen planet’s gravity is pulling dust and gas into the planet’s inclined orbit.

Now, a second shadow – playing a game of peek-a-boo – has emerged in just a few years between observations stored in Hubble’s MAST archive. This could be from yet another disk nestled inside the system. The two disks are likely evidence of a pair of planets under construction.

TW Hydrae is less than 10 million years old and resides about 200 light-years away. In its infancy, our solar system may have resembled the TW Hydrae system, some 4.6 billion years ago. Because the TW Hydrae system is tilted nearly face-on to our view from Earth, it is an optimum target for getting a bull’s-eye-view of a planetary construction yard. 

The second shadow was discovered in observations obtained on June 6, 2021, as part of a multi-year program designed to track the shadows in circumstellar disks. John Debes of AURA/STScI for the European Space Agency at the Space Telescope Science Institute in Baltimore, Maryland, compared the TW Hydrae disk to Hubble observations made several years ago.

“We found out that the shadow had done something completely different,” said Debes, who is principal investigator and lead author of the study published in The Astrophysical Journal. “When I first looked at the data, I thought something had gone wrong with the observation because it wasn’t what I was expecting. I was flummoxed at first, and all my collaborators were like: what is going on? We really had to scratch our heads and it took us a while to actually figure out an explanation.” 

The best solution the team came up with is that there are two misaligned disks casting shadows. They were so close to each other in the earlier observation they were missed. Over time they’ve now separated and split into two shadows. “We’ve never really seen this before on a protoplanetary disk. It makes the system much more complex than we originally thought,” he said.

The simplest explanation is that the misaligned disks are likely caused by the gravitational pull of two planets in slightly different orbital planes. Hubble is piecing together a holistic view of the architecture of the system.

The disks may be proxies for planets that are lapping each other as they whirl around the star. It’s sort of like spinning two vinyl phonograph records at slightly different speeds. Sometimes labels will match up but then one gets ahead of the other.

“It does suggest that the two planets have to be fairly close to each other. If one was moving much faster than the other, this would have been noticed in earlier observations. It’s like two race cars that are close to each other, but one slowly overtakes and laps the other,” said Debes.

The suspected planets are located in a region roughly the distance of Jupiter from our Sun. And, the shadows complete one rotation around the star about every 15 years – the orbital period that would be expected at that distance from the star. 

Also, these two inner disks are inclined about five to seven degrees relative to the plane of the outer disk. This is comparable to the range of orbital inclinations inside our solar system. “This is right in line with typical solar system style architecture,” said Debes. 

The outer disk that the shadows are falling on may extend as far as several times the radius of our solar system’s Kuiper belt. This larger disk has a curious gap at twice Pluto’s average distance from the Sun. This might be evidence for a third planet in the system.

Any inner planets would be difficult to detect because their light would be lost in the glare of the star. Also, dust in the system would dim their reflected light. ESA’s Gaia space observatory may be able to measure a wobble in the star if Jupiter-mass planets are tugging on it, but this would take years given the long orbital periods.

The TW Hydrae data are from Hubble’s Space Telescope Imaging Spectrograph. The James Webb Space Telescope’s infrared vision may also be able to show the shadows in more detail.

Reference: “The Surprising Evolution of the Shadow on the TW Hya Disk” by John Debes, Rebecca Nealon, Richard Alexander, Alycia J. Weinberger, Schuyler Grace Wolff, Dean Hines, Joel Kastner, Hannah Jang-Condell, Christophe Pinte, Peter Plavchan and Laurent Pueyo, 4 May 2023, The Astrophysical Journal.
DOI: 10.3847/1538-4357/acbdf1

The Hubble Space Telescope is a project of international cooperation between NASA and ESA. NASA’s Goddard Space Flight Center in Greenbelt, Maryland, manages the telescope. The Space Telescope Science Institute (STScI) in Baltimore conducts Hubble science operations. STScI is operated for NASA by the Association of Universities for Research in Astronomy, in Washington, D.C.

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