Checking the Speed of Spirals
Abstract
Its an old debate: gravity or companions? The spectacular spiral arms we see in some protoplanetary disks are likely caused by one or the other and a recent study has taken a speedy approach to figuring out which.Whats Driving Patterns?Among the many swirling disks of gas and dust weve spotted around young, newly formed stars, more than a dozen contain a notable feature: large-scale spiral arms that can span tens to hundreds of astronomical units in size.Artists impression of spiral arms in the disk surrounding a young star. [Institute of Astronomy, University of Cambridge Amanda Smith Farzana Meru]The formation of these arms remains an open question. Are they caused by a gravitational instability that drives a spiral pileup of disk material? Or are they induced by the presence of a hidden planetary companion orbiting within the disk?Either way, the answer will reveal valuable information about the system. If the spirals are driven by a gravitational instability, then we can constrain the mass of the disk. If theyre caused by the interaction of the disk with a planetary companion, we can infer the mass and location of the planet.Past explorations of spiral arms have focused on examining static observations of disks. But a team of scientists led by Bin Ren (California Institute of Technology) has now taken a different approach, instead looking at how the arms of one disk move over time.A Need for Speed MeasurementsRen and collaborators gathered Very Large Telescope SPHERE observations of MWC 758, a young star and spiral-armed disk located just over 500 light-years away, spanning a baseline of nearly five years. They then fit models to MWC 758s spiral arms to establish their pattern speeds the angular speeds at which the arms are rotating.The authors were looking for one of two potential outcomes linked to the origin of the arms:If driven by a gravitational instability, the material of the arms will move at the local Keplerian speed, set by the mass of the central star. This means the inner parts of the arms will move quickly and the outer parts more slowly, winding the arms up ever more over time.If driven by a planetary companion, the arms will move as a solid structure that matches the speed of the companion.Time for Planet HuntingThe best-fit circular orbit of a planetary companion driving MWC 758s spiral arms lies at ~170 au for a 1.9-solar-mass central star. [Ren et al. 2020]Ren and collaborators find that the motions of the arms are not consistent with a gravitational-instability origin the pattern speed is roughly a factor of 5 too slow for that! Instead, the spirals motion is well-fit by a model in which a planetary companion at ~170 au has created and maintains the arms.Based on imaging of the disk, the authors set upper limits of about 5 Jupiter masses for the hidden planetary companion thats driving the arms. The MWC 758 system makes an ideal target for future observations with current and upcoming telescopes to try to spot the planet driving its arms especially now that we know where to look!CitationDynamical Evidence of a Spiral Armdriving Planet in the MWC 758 Protoplanetary Disk, Bin Ren et al 2020 ApJL 898 L38. doi:10.3847/2041-8213/aba43e
- Publication:
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AAS Nova Highlights
- Pub Date:
- November 2020
- Bibcode:
- 2020nova.pres.7175K
- Keywords:
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- Features;
- Highlights;
- interstellar medium;
- planet formation;
- protoplanetary disks