potential of the galaxy from the besançon galaxy model...
TRANSCRIPT
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Potential of the Galaxy from the Besançon Galaxy Model including
the triaxial bar
J. G. Fernàndez-Trincado, A. C. Robin, C. Reylè et al.
Université de Franche-Comté – UFC Observatoire de Besançon
Image by: ESO/NASA/JPL-Caltech/M. Kornmesser/R. Hurt. Gaia Challenge 2014 'Discs',
Germany
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1. Construct a self-consistent dynamical model (Besançon Galaxy Model) including the “Non-axisymmetric Potential” produced by a triaxial bar and a more realistic density distribution for the stellar halo (potential corresponding to a Hernquist model).
2. Constraint on the physical parameters with the new Rotation Curve.
3. Understand the structure and dynamical properties of the Milky Way under the new constraints.
4. In the near future the population synthesis approach for using it for validation of GAIA data and for data analysis.
General Idea
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GENERAL SCHEME FOR DYNAMICAL SELF CONSISTENCY
BESANCON GALAXY MODELBienaymè et al. (1987), Robin et al. (1986, 2003, 2012, 2014), Czekaj et al. (2013)
Solving for
Fitting the DMH and CM parameters until reproduces the
observed rotation curve
The process is repeated until the difference in fitted parameters
between two successive iteration is less than 1%
Solving for
and
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The Rotation Curve of the Milky Way
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The Rotation Curve of the Milky Way
Fitting (in preparation)
- Caldwell et al. 1981 - Sofue et al. 2012 - Bhattacharjee+2014- RAVE - BRAVA- SEGUE- APOGEE DR12- In the near future GAIA
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Fernández-Trincado et al. (in preparation)
Solving for
Fitting the DMH and CM parameters until reproduces the
observed rotation curve
GENERAL SCHEME FOR DYNAMICAL SELF CONSISTENCY
AXISYMMETRIC + NON-AXISYMMETRIC
The process is repeated until the difference in fitted parameters
between two successive iteration is less than 1%
Solving for
and
![Page 7: Potential of the Galaxy from the Besançon Galaxy Model ...fernandez-trincado.github.io/Fernandez-Trincado/Talks/Talk_October... · 1. Construct a self-consistent dynamical model](https://reader033.vdocuments.us/reader033/viewer/2022042310/5ed7e3b2be7cd466191cf612/html5/thumbnails/7.jpg)
The Rotation Curve of the Milky Way + Triaxial Bar
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Triaxial Bar
Robin et al. (2012)
Fitting and and
Sun
Face-on
Face-on
Edge-on
12.89º
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Triaxial BarSuperposition of four
inhomogeneous ellipsoids
Pichardo et al. (2004) model
Schmidt (1956)
N-homogeneous ellipsoids
Effective potential for the triaxial bar in the rotating system
Face-on
Edge-on
12.89º
Pichardo et al. (2004)
Pichardo et al. (2004)
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Triaxial Bar
Superposition of four inhomogeneous
ellipsoids
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Stellar Halo
Robin et al. (2003)
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by
axcz
ax = by > cz
1.
2.
Triaxial Hernquist halo
Robin et al. (2014)
Robin et al. (2003)
2.76
2.1 kpc
0.77
In preparation
1.
2.
Oblate Spheroid
“A pure power-law system can not exit in nature”
“A Hernquist law is a more realistic density distribution”
Stellar Halo
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Summary
- We have applied the theory of potentials (Kellog 1953 and Schmidt 1956) to derive the field forces and potential for a triaxial bar according to the superposition model of Pichardo et al. (2004).
- The potential and field forces for a Hernquist law (stellar halo) are in preparation.
- New values for age-velocity dispersion relation are explored, from RAVE data (in preparation).
- It can be used to constraint the total mass in the Besançon Galaxy Model (in preparation).
- Test particles simulations will be generated to explore the bar effect locally and more generally derive the kinematics of the stars in a bar potential.