clump formation through colliding stellar winds in the galactic...
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![Page 1: Clump formation through colliding stellar winds in the Galactic …snaoz/Aspen16/Slides/Diego_Calderon.pdf · 2016. 2. 12. · Clump formation through colliding stellar winds in the](https://reader033.vdocument.in/reader033/viewer/2022060916/60a9ccf01ff7b7290e7a9116/html5/thumbnails/1.jpg)
Clump formation through colliding stellar winds in the Galactic Center
Calderón et al. (2016)
Diego Calderón1, J. Cuadra1, A. Ballone2,3, M. Schartmann3, A. Burkert2,3 & S. Gillessen2 1Instituto de Astrofísica, Pontificia Universidad Católica de Chile
2Max-Planck-Institute for Extraterrestrial Physics, Germany 3Universitätssternwarte der Ludwig-Maximilians-Universität, Germany
4 Center for Astrophysics and Supercomputing, Swinburne University of Technology
!“Dynamics and Accretion at the Galactic Center”
Aspen winter conference, February 9th 2016
Numerical Hydrodynamics Group IAUC Image of η Carinae by HST
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Gas clumps in the Galactic Center
Animation from Cuadra et al. (2008)Numerical Hydrodynamics Group IAUC
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Gas clumps in the Galactic Center
Animation from Cuadra et al. (2008)Numerical Hydrodynamics Group IAUC
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Gas clumps in the Galactic Center
Animation from Cuadra et al. (2008)Numerical Hydrodynamics Group IAUC
Are they physical or numerical? (Hobbs et al. 2013)
!
Could G2 be one of them? (Schartmann et al. 2012, Burkert et al. 2012)
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Non-linear Thin Shell Instability (NTSI) Vishniac (1994)
Figure from McLeod & Whitworth (2013)Numerical Hydrodynamics Group IAUC
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Non-linear Thin Shell Instability (NTSI) Vishniac (1994)
Figure from McLeod & Whitworth (2013)Numerical Hydrodynamics Group IAUC
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Non-linear Thin Shell Instability (NTSI) Vishniac (1994)
Figure from McLeod & Whitworth (2013)Numerical Hydrodynamics Group IAUC
Isothermal case
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From Stevens et al. (1992),
Colliding Winds
Figure from Stevens et al. (1992)
� � 1 ) adiabatic wind
� < 1 ) radiative wind
Numerical Hydrodynamics Group IAUC
� =tcool
tdyn
⇡ 1
2
v5.48
d12
M�7
Schematic representation of a colliding winds system
The NTSI can take place only if winds are radiative, i.e., form a thin shell.
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Model for a symmetric wind collision
Numerical Hydrodynamics Group IAUC
Describing the thermal evolution of the slab, we can estimate the unstable wavelength range, and the mass of possible clumps (assuming λ ~ clump size).
![Page 10: Clump formation through colliding stellar winds in the Galactic …snaoz/Aspen16/Slides/Diego_Calderon.pdf · 2016. 2. 12. · Clump formation through colliding stellar winds in the](https://reader033.vdocument.in/reader033/viewer/2022060916/60a9ccf01ff7b7290e7a9116/html5/thumbnails/10.jpg)
Model for a symmetric wind collision
Numerical Hydrodynamics Group IAUC
Describing the thermal evolution of the slab, we can estimate the unstable wavelength range, and the mass of possible clumps (assuming λ ~ clump size).
Clumps can be created in a wide range of masses, some of them can even reach ~100 Earth masses.
10−1 100 101
Stellar Separation d (mpc)
200
300
400
500
600
700
800
900
Stellar
WindVelocityV
(km
s−1)
A
B
C
D
E
F
Minimum Clump Mass
10−1 100 101
Stellar Separation d (mpc)
A
B
C
D
E
F
Maximum Clump Mass
χ = 1
χ = 0.5
−14
−12
−10
−8
−6
−4
−2
0
2
log(M
/MEarth)
M = 10−5 MSun yr−1
![Page 11: Clump formation through colliding stellar winds in the Galactic …snaoz/Aspen16/Slides/Diego_Calderon.pdf · 2016. 2. 12. · Clump formation through colliding stellar winds in the](https://reader033.vdocument.in/reader033/viewer/2022060916/60a9ccf01ff7b7290e7a9116/html5/thumbnails/11.jpg)
Model for a symmetric wind collision
Numerical Hydrodynamics Group IAUC
Describing the thermal evolution of the slab, we can estimate the unstable wavelength range, and the mass of possible clumps (assuming λ ~ clump size).
Clumps can be created in a wide range of masses, some of them can even reach ~100 Earth masses.
10−1 100 101
Stellar Separation d (mpc)
200
300
400
500
600
700
800
900
Stellar
WindVelocityV
(km
s−1)
A
B
C
D
E
F
Minimum Clump Mass
10−1 100 101
Stellar Separation d (mpc)
A
B
C
D
E
F
Maximum Clump Mass
χ = 1
χ = 0.5
−14
−12
−10
−8
−6
−4
−2
0
2
log(M
/MEarth)
M = 10−5 MSun yr−1
But…Can this happen in the Galactic Centre?
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Stellar properties from Martins et al. (2007)
Clump formation in the Galactic Centre
Numerical Hydrodynamics Group IAUC
y-axis shows maximum stellar separations for identical winds to be radiative, i.e., form thin shells.
Separations of miliparsec (~200AU) scales are not very common.
0.00 0.05 0.10 0.15 0.20 0.25Momentum Flux (MSun yr−1 km s−1)
10−3
10−2
10−1
100
101
102
2dcool
∗(m
pc)
16SE2
33E
13E4
9W
AFNWNW
100
101
102
103
104
2dcool
∗(A
U)
Animation Pittard (2009)
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Stellar properties from Martins et al. (2007)
Clump formation in the Galactic Centre
Numerical Hydrodynamics Group IAUC
y-axis shows maximum stellar separations for identical winds to be radiative, i.e., form thin shells.
Separations of miliparsec (~200AU) scales are not very common.
What about binaries? 3 systems so far ~ 3 0 % e x p e c t e d (Pfuhl+2014)
0.00 0.05 0.10 0.15 0.20 0.25Momentum Flux (MSun yr−1 km s−1)
10−3
10−2
10−1
100
101
102
2dcool
∗(m
pc)
16SE2
33E
13E4
9W
AFNWNW
100
101
102
103
104
2dcool
∗(A
U)
Animation Pittard (2009)
![Page 14: Clump formation through colliding stellar winds in the Galactic …snaoz/Aspen16/Slides/Diego_Calderon.pdf · 2016. 2. 12. · Clump formation through colliding stellar winds in the](https://reader033.vdocument.in/reader033/viewer/2022060916/60a9ccf01ff7b7290e7a9116/html5/thumbnails/14.jpg)
Stellar properties from Martins et al. (2007)
Clump formation in the Galactic Centre
Numerical Hydrodynamics Group IAUC
y-axis shows maximum stellar separations for identical winds to be radiative, i.e., form thin shells.
Separations of miliparsec (~200AU) scales are not very common.
What about binaries? 3 systems so far ~ 3 0 % e x p e c t e d (Pfuhl+2014)
0.00 0.05 0.10 0.15 0.20 0.25Momentum Flux (MSun yr−1 km s−1)
10−3
10−2
10−1
100
101
102
2dcool
∗(m
pc)
16SE2
33E
13E4
9W
AFNWNW
100
101
102
103
104
2dcool
∗(A
U)
- IRS 16SW -> binary system - d~10µpc, P~19.5d & wind speed ~ 500km/s - Located in the clockwise disc - G2 origin in the disc (Schartmann et al. 2015)
Animation Pittard (2009)
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Stellar properties from Martins et al. (2007)
Clump formation in the Galactic Centre
Numerical Hydrodynamics Group IAUC
y-axis shows maximum stellar separations for identical winds to be radiative, i.e., form thin shells.
Separations of miliparsec (~200AU) scales are not very common.
What about binaries? 3 systems so far ~ 3 0 % e x p e c t e d (Pfuhl+2014)
0.00 0.05 0.10 0.15 0.20 0.25Momentum Flux (MSun yr−1 km s−1)
10−3
10−2
10−1
100
101
102
2dcool
∗(m
pc)
16SE2
33E
13E4
9W
AFNWNW
100
101
102
103
104
2dcool
∗(A
U)
- IRS 16SW -> binary system - d~10µpc, P~19.5d & wind speed ~ 500km/s - Located in the clockwise disc - G2 origin in the disc (Schartmann et al. 2015)
Animation Pittard (2009)
![Page 16: Clump formation through colliding stellar winds in the Galactic …snaoz/Aspen16/Slides/Diego_Calderon.pdf · 2016. 2. 12. · Clump formation through colliding stellar winds in the](https://reader033.vdocument.in/reader033/viewer/2022060916/60a9ccf01ff7b7290e7a9116/html5/thumbnails/16.jpg)
Another option: Mass-losing star encountersStellar encounters could be clumps sources too!
Numerical Hydrodynamics Group IAUC
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Another option: Mass-losing star encountersStellar encounters could be clumps sources too!
Numerical Hydrodynamics Group IAUC
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Another option: Mass-losing star encounters
We ran Newtonian test particles gravity simulation of the O/WR stars (using orbital data from Paumard et al. 2006) for 10,000 yrs and register close encounters (<2,000AU~10mpc).
Stellar encounters could be clumps sources too!
Numerical Hydrodynamics Group IAUC
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Another option: Mass-losing star encounters
We ran Newtonian test particles gravity simulation of the O/WR stars (using orbital data from Paumard et al. 2006) for 10,000 yrs and register close encounters (<2,000AU~10mpc).
Stellar encounters could be clumps sources too!
We found these encounters are not very common, about 1 in 10,000 yr.
Numerical Hydrodynamics Group IAUC
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Conclusions !!- We developed a straight-forward diagnostic for clump formation through NTSI with (Mdot, Vwind, d) as input. ! For stellar separations <2,000AU, clumps can be created in a very wide range of masses reaching 100 Earth masses. ! Symmetric colliding wind encounters are an unlikely source of clumps in the Galactic Centre. ! Close encounters (<2,000AU) of the known O/WR are not very common events, however some of them might be clump sources. ! IRS 16SW is the most promising clump source and deserves future study (currently working on it).
Numerical Hydrodynamics Group IAUC
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Work in progress
Calculate a clump mass function for different systems, rate of ejecta to the ISM and the impact of orbital motion.
Currently, we are running and analysing hydro AMR simulations.
Numerical Hydrodynamics Group IAUC
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Work in progress
Calculate a clump mass function for different systems, rate of ejecta to the ISM and the impact of orbital motion.
Currently, we are running and analysing hydro AMR simulations.
Numerical Hydrodynamics Group IAUC
![Page 23: Clump formation through colliding stellar winds in the Galactic …snaoz/Aspen16/Slides/Diego_Calderon.pdf · 2016. 2. 12. · Clump formation through colliding stellar winds in the](https://reader033.vdocument.in/reader033/viewer/2022060916/60a9ccf01ff7b7290e7a9116/html5/thumbnails/23.jpg)
Work in progress
Calculate a clump mass function for different systems, rate of ejecta to the ISM and the impact of orbital motion.
Currently, we are running and analysing hydro AMR simulations.
Numerical Hydrodynamics Group IAUC
![Page 24: Clump formation through colliding stellar winds in the Galactic …snaoz/Aspen16/Slides/Diego_Calderon.pdf · 2016. 2. 12. · Clump formation through colliding stellar winds in the](https://reader033.vdocument.in/reader033/viewer/2022060916/60a9ccf01ff7b7290e7a9116/html5/thumbnails/24.jpg)
Thanks for your attention!
Numerical Hydrodynamics Group IAUCNumerical Hydrodynamics Group IAUC