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Transcript 
Dusty disks in evolved stars?
 Post-AGB (Asymptotic Giant Branch) stars
 Planetary Nebulae (PNe)
Mikako Matsuura
NAOJ
1
Luminosity [Lsun]
What are
post-AGB stars,
planetary nebulae (PNe)?
Planetary
nebula
The evolutionary tracks of 1, 5
and 25 Msun stars on the HR
diagram (Iben 1995)
Post-AGB
AGB
Red giant
branch
(RGB)
Main sequence
2
Effective Temperature [K]
 Late stage of stellar
evolution for low mass
stars (1-8 Msun in main
sequence)
Some examples of unique
shapes and common-names
NGC 6537
Spider Nebula
NGC 2392
Eskimo Nebula
3
OH 231.8+4.2
Rotten Egg
Nebula
NGC 6542
Cat’s Eye
Nebula
Current problems in the field
of PNe research
 Change in
shapes
Main
Sequence
(MS)
AGB stars
Planetary
nebulae
(PNe)
Mass loss
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ÅB
1-8 Msun
4
Central star: ~0.6 Msun
Post-AGB stars and PNe
 Post-AGB stars and PNe
Asymmetric structure
Round
Ellipse
Bipolar
 AGB stars : spherical
symmetry
5
Balick & Frank (2002)
Formation mechanisms of
bipolar outflows
 Circum(-
Troidal
shaped AGB
wind
binary) disk
Remnant of
AGB mass loss
 Magnetic field
Magnetic field
6
Balick & Frank (2002)
Disk model
 Hydrodynamic model by
Icke (2003)
 A warped disk
7
 Two cases
NGC 6302 (Bug Nebula)
OH 231.8+4.8 (Rotten Egg Nebula)
8
 Icke’s model
resemble to the
shape of NGC 6302
 About 8 arcsec disk?
Butterfly nebula
NGC 6302
HST optical image
(H, NeII composite)
Icke’s model
9
Matsuura et al. (2005)
Optical three
band composite
image (HST)
Dense disc
Extinction map A(H) [mag]
H - 6cm
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Matsuura
et al. (2005)
10
JCMT 450 m image
 Bipolar
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11
Log I [Jy per beam]
 Central core
Source of 450 m flux
Core
I450m=3Jy per beam
I450m(ff)~0.4Jy per beam
-> 450m dust excess
6 cm image
(free-free emission)
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Lobe
I450m~1Jy per beam
I450m(ff)<0.1Jy per beam
12
20 arcsec
5 arcsec
Results for NGC 6302 study
 A warped disc
 Expanding disc
 Formation mechanism of the disc
Circum(-binary) disc. Binary? Too large
inner radius?
Magnetic field can form the bipolar,
however, the presence of the disc is not
necessary
13
Compact disks
 Icke’s model’s
 Too large disk
compared with the
size of outflow
 In most of the case,
disk is more
compact, especially
at early phase of
post-AGB
14
HST Optical image of
the post-AGB star, OH 231.8+4.2
The post-AGB star, OH
231.8+4.2
 HST optical image
 Red: 791nm (cont.)
 Green: 675 nm
(cont.+ionise lines)
 Blue: combination
of Ha (656nm) and
NeII (658nm)
 Collimated outflow
 Shocked bubble
 Dense torus
15
Infrared images of OH 231
16
Bujarrabal et al. (2002)
Infrared images of OH 231
 Infrared
 Ionized lines
ESO/VLT/
 Less dust
NACO
extinction
 Central region is
more apparent
 Very compact and
bright object at
the centre
17
Matsuura et al.
ApJL accepted
Infrared images of OH 231
18
11.7 micron
Jura et al. (2002)
Very compact disk
 Jura et al. (2002)’s
fitting to SED
 Compact disk
 The emission from
blackbody at 130 K
from a cylinder of
radius 5x1015 cm at
a tilt angle of 54
degrees
19
MIDI VLTI observations
 MID-infrared
Interferometric
instrument (MIDI)
 UT3 - UT4 62.4
metre baseline
20
MIDI VLT observations
 Observing log
 Small angular information
 Variation in projected length
21
Spectra from MIDI
Flux [Jy]
Spectra from MIDI
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8
22
10
Wavelength [micron]
13
Visibilities (correlated flux)
23
Radius of the disk
Distance 1.3 kpc, member of
open cluster M46 (Jura &
Morris 1985)
24
Model fit (preliminary)
25
Comparison with other
observations
 MIDI : 40-50 AU
 SiO : 3 AU
 MIDI
 Circumstellar
material (probably
disk)
 Not the central star
26
R(star) ~ 3 AU
Sanchez Contreras et al. (2002)
Binary disk model
 Binary with a
separation of 10-100
AU
 Binary disk may be
formed
Mastrodemos & Morris (1999)
27
Conclusion & Future work
 Circumstellar material with a radius of
40-50 AU (upper limit)
 Very compact: binary disk?
 Future: measurements of visibilities in
different uv-plane
28
Model for far-infrared excess
 Dust ~0.03Msun
 Tdust<100K
 1x1016cm < Rdust <
10x1016cm
29
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