study of planet forming systems orbiting intermediate-mass stars
DESCRIPTION
Study of Planet forming Systems Orbiting Intermediate-mass Stars. Sweta Shah Ithaca College Advisor: Dr. Luke Keller In collaboration with the NASA Spitzer Space Telescope I nfra R ed S pectrograph Disk’s Team. Image credit: Caltech. Theory of Planet formation Adapted from Hogerheide 1998. - PowerPoint PPT PresentationTRANSCRIPT
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Study of Planet forming Systems Orbiting Intermediate-mass Stars
Sweta ShahIthaca College
Advisor: Dr. Luke KellerIn collaboration with the NASA Spitzer Space Telescope
InfraRed Spectrograph Disk’s Team
Image credit: Caltech
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Theory of Planet formationAdapted from Hogerheide 1998
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Why intermediate mass (Herbig Ae Be) stars ?
• Hot and massive 12,000 - 18,000 K
• 2-10 solar mass
• Excess thermal (IR) radiation
• ‘e’ Emission line spectra
Circumstellar disks in Orion Nebula (Hubble Space Telescope Image: McCaughrean & O’Dell 1995)
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Spectral characteristics of the Accretion Disk
• Thermal IR excess
• PAH
• Dust -silicates
Spectral Energy Distribution (Malfait et al. 1998)
UV mm
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Correlation of SED and disk geometry
(Malfait et al. 1998)
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Physical structure of the disks: SEDs (UV-mm)
IRSSL
IRSSL
IRSSL
IRSSLLL
LL
LL
LL
(Malfait et al. 1998)
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Spectral features - PAH?
• Polycyclic Aromatic Hydrocarbon
• Excited by UV radiation
HH
H
H
HH H
H
H
H
HH
Sloan, Keller, Leibensperger et al. 2005
very stable
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What is the shape of the disk?
How do we test this hypothesis?
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Measuring the strength of “bumps” in Infrared continuum
6
13
25
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Star with no disk
Flared disks
Flat disks
Dust grain growth and settling
Keller, Shah et al. 2006, paper in preparation
Increasing 6-13 m SED slope
Incr
easi
ng 1
3-25
m
SE
D s
lope
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Ultimate Goal
Disk evolution in time
IPAH ?!
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Thanks!(Any ?)
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Spitzer InfraRed Telescope Facility– Background-limited sensitivity 3 –
180 m– 85 cm f/12 beryllium R-C telescope,
T < 5.5K– Three scientific instruments
provide:• Imaging/photometry, 3-180 m• Spectroscopy, 5-40 m (R = 90
& 600)• Spectrophotometry, 50-100 m
– 5.5 yr lifetime – Launched on 25 August 2003– Birth stone: forsterite
IRS