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Infant Stars Try to Prevent Their Neighbors from Birthing Planets
Stars of different shapes and sizes are all born in huge star-forming regions. Scientists know that when a protoplanetary disc around a relatively small star is very close to a massive star, the larger star can evaporate parts of the protoplanetary disc.
However, it was thought this was only the case where very large stars shone on the protoplanetary disc. Now, researchers led by Imperial College London have discovered that a protoplanetary disc shone on by only a relatively weak star is also losing material. The protoplanetary disc studied, called IM Lup, belongs to a star similar to our Sun.
Credit: NASA/JPL-Caltech/T. Pyle (SSC)
Lead author Dr Thomas Haworth from the Department of Physics at Imperial said: “Because the light shining on this disc is so much weaker than that shining on known evaporating discs, it was expected that there would be no evaporation. We have shown that actually these stars can evaporate a significant amount of material.
“This result has consequences if we want to understand the diversity of exoplanet systems that are being discovered. This phenomenon could significantly affect the planets that can form around different stars. For example, light from nearby stars could limit the maximum size a solar system can be.”
The IM Lup system was studied recently by Dr Ilse Cleeves at Harvard, who discovered an unexplained ‘halo’ of material around it.
Working with Dr Cleeves, and researchers from the Max Planck Institute and the University of Cambridge, Dr Haworth modelled the flow and chemistry of the system to determine if the halo was the result of a nearby weak star heating up the system and evaporating away material.
They found that the halo is the result of evaporation, as material streams away and is lost to space. The team think the reason this disc is being strongly evaporated is that it is very wide.
Credit: Ilse Cleeves
This means the star cannot hold on to the disc’s outer parts so strongly, as its gravity would be much weaker that far out, leaving the fringes at the mercy of evaporation.
Dr Haworth said: “Our calculations show that if the disc started at 700AU in size, it would halve in size in the first million years of its life. Since IM Lup is less than a million years old, we’ve caught it in the act of rapid shrinking.”
Hayley Dunning
Citation: ‘First evidence of external disc photoevaporation in a low mass star forming region: the case of IM Lup‘ by Thomas J. Haworth, Stefano Facchini, Cathie J. Clarke and L. Ilsedore Cleeves is published in Monthly Notices of the Royal Astronomical Society.
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