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Mackenzie James Mentor: Dr. Jinyoung Serena Kim

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1 Photoevaporating Protoplanetary Disks near Young Massive Stars in the Orion Nebula
Mackenzie James Mentor: Dr. Jinyoung Serena Kim Arizona Space Grant Symposium, April 14th, 2018 JSK: Title is a bit too large and your name is too small. I changed font size a bit. What about using different colors for name or title?

2 Orion – Nursery of Baby Stars

3 Why look in the Orion Nebula?
The Orion Nebula is a site of active star formation from O stars to planetary mass objects Stars in Orion Nebula are ~1 Myr old (very young) It’s hypothesized that our own solar system formed in a similar environment. Silhouette disks provide us unique laboratory to study the dust in young planet forming disks. Photo Courtesy of ESA/Hubble

4 Silhouette Disks 132-1832 Distance: 1.81 light years
Distance: 1.56 ly Distance: 1.12 ly Distance: 1.35 ly Distance: ly Distance: ly Distance: ly What I want to mention on this slide: we wanted to analyze the physical properties and how their appearance changed in different filters Arcsec*400 = unit of au Au/ = in unit of pc Pc -> light year (ly) *3.26 Distance: 1.81 ly Distance: ly

5 A B D C Silhouette Disks of interest in Orion Nebula 090-326 114-246

6 Interesting Points: Disk was extremely large (~1000AU semimajor axis, 270 AU for semi minor axis). Narrowing in the middle. Fonts are too small

7 Interesting Points: Double lobed show that the dust is concentrated in the midplane. Middle becomes pinched off in longer wavelengths.

8 No overall trends were found
is an outlier (larger than the others) Semi-Major axis and Semi-minor axis Evidence of dust grain growth in the midplane of disk. 3rd bullet is not because of physical reason but because of observational constraints.: Notice how there are few (or no) points at longer wavelengthre are few (or no) points at longer wavelengths

9 Variability in 090-326 and 165-254 Interesting Points:
Both disk show variability, but there is no connecting trend. Dust is unobservable in longer wavelengths for both disks (too faint). No measurement in shorter wavelength. 110 au 67 au 113 au 64 au

10 Conclusions and Further Work
Dust disk height gets smaller for longer wavelength image: Grain sizes appear to be getting larger in the midplane. Because we are unable to see many of the disk in longer wavelengths, this puts a limit on the size of dust grains in the silhouette disks. For future work I want to look more into the variability of the disks. - Measuring opacity and intensity of the disks - Look for more candidates to confirm the trends or modify look -> appear Variability: say that you are already working on it

11 Thank You Acknowledgements: Hubble Legacy Archive Ricci et. al (2008)
Miotello et all. (2016)

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