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APLICACIONS DE L'ASTROFÍSICA COMPUTACIONAL (AAC)

Crčdits Dept.
5.625 (4.5 ECTS) UV

Professors

Responsable:  (-)
Altres:(-)

Objectius Generals

In this course, students are expected to apply their knowledge of computational models in astrophysics and supercomputing to solve selected problems. The course is oriented towards the cooperative work of the students.

Objectius Específics

Coneixements

  1. General description of codes in Astrophysical Hydrodynamics.
  2. General description of codes in Relativistic (magneto-)hydrodynamics.
  3. General description of codes in Cosmology.
  4. Numerical experiments.
  5. Computing some simple astrophysical and cosmological models.

Habilitats

  1. To perform numerical experiments using programs provided by the lecturer, or public domain software.
  2. To reproduce some basic tests used for validation of modern Astrophysical numerical codes.
  3. To analyze and represent scientific data.

Competències

  1. Numerical algorithms in Astrophysical Hydrodynamics.
  2. Numerical algorithms in Cosmology.
  3. Numerical algorithms in Relativistic (magneto-)hydrodynamics.
  4. To solve selected problems in computational astrophysics.

Continguts

Hores estimades de:

T P L Alt L Ext. Est A Ext.
Teoria Problemes Laboratori Altres activitats Laboratori extern Estudi Altres hores fora d'horari fixat

1. Introduction.
T      P      L      Alt    L Ext. Est    A Ext. Total 
1,0 0 0 0 0 0 0 1,0

2. Numerical algorithms in Astrophysical Hydrodynamics.
T      P      L      Alt    L Ext. Est    A Ext. Total 
2,0 0 0 0 0 2,0 0 4,0

3. Numerical algorithms in Cosmology.
T      P      L      Alt    L Ext. Est    A Ext. Total 
2,0 0 0 0 0 2,0 0 4,0

4. Numerical algorithms in Relativistic (Magneto-)hydrodynamics.
T      P      L      Alt    L Ext. Est    A Ext. Total 
4,0 0 0 0 0 2,0 0 6,0

5. General description of codes for Astrophysical applications and Cosmology.
T      P      L      Alt    L Ext. Est    A Ext. Total 
3,0 0 0 0 0 10,0 0 13,0

6. Numerical experiments.
T      P      L      Alt    L Ext. Est    A Ext. Total 
2,0 0 18,0 6,0 0 4,0 2,0 32,0
  • Altres activitats:
    Presentation of the results of the computational laboratory.
  • Altres activitats fora d'horari fixat:
    Menthored work.

7. Simple astrophysical and cosmological models.
T      P      L      Alt    L Ext. Est    A Ext. Total 
2,0 0 14,0 12,0 0 8,0 4,0 40,0
  • Altres activitats:
    Presentation of the results of the computational laboratory.
  • Altres activitats fora d'horari fixat:
    Menthored work.


Total per tipus T      P      L      Alt    L Ext. Est    A Ext. Total 
16,0 0 32,0 18,0 0 28,0 6,0 100,0
Hores addicionals dedicades a l'avaluació 0
Total hores de treball per l'estudiant 100,0

Metodologia docent

The practical work will consist on computer practices where the student will use programs provided by the lecturer, public domain programs -appropriately documented- or programs that will be developed by the student.

Mètode d'avaluació

The evaluation of the course will be based on the work developed by the students in the practical part (problems).

Bibliografía bàsica

  • Chorin, A.J., Marsden, J.E. A Mathematical Introduction to Fluid Mechanics, Springer (Chapter 3), 1990.
  • Landau, L. D. & Lifshitz, E. M. Fluid Mechanics, Pergamon, 1987, 2d ed.
  • LeVeque, R. J. Finite Volume Methods for Hyperbolic Problems., Cambridge U. P., 2002.
  • Shore, S.N. An Introduction to Astrophysical Hydrodynamics , Academic Press, 1992.
  • Toro, E. F. Riemann Solvers and Numerical Methods for Fluid Dynamics: A Practical Introduction, Springer, 1999, 2d. ed.

Bibliografía complementària

  • Martí, J.M., Müller, E. Numerical Hydrodynamics in Special Relativity, Living Reviews in Relativity: http://www.livingreviews.org/Articles/Volume2/1999-3marti/index.html, , 1999.
  • Font, J.A. Numerical Hydrodynamics in General Relativity, Living Reviews in Relativity: http://www.livingreviews.org/Articles/Volume3/2000-2font/index.html, , 2000.
  • Kulsrud, R.M. Physics for Astrophysics, Princeton U. P., 2004.

Enllaços web

  1. http://grape.c.u-tokyo.ac.jp/~hachisu/java.shtml
    Hachisu I. 1997, 1D Numerical Simulation by Java


  2. http://www.strw.leidenuniv.nl/~icke/html/VincentPNO.html
    Dynamics of planetary nebulae: Simulations


  3. http://jupiter.as.arizona.edu/~burrows/scidac/scidac.html
    Supernova Explosions: Introduction and simulations


  4. http://www.phy.ornl.gov/tsi
    Supernova Explosions: Introduction and simulations


  5. http://www.livingreviews.org/Articles/Volume2/1999-3marti/index.html (Secc. 7.1)
    Astrophysical jets: Introduction


  6. http://www.astro.washington.edu/balick/WFPC2/index.html
    Dynamics of planetary nebulae: Introduction


  7. http://www.cv.nrao.edu/~abridle/images.htm
    Astrophysical jets: Images of extragalactic jets


  8. http://www.astro.lsa.umich.edu/~phughes/icon_dir/relproj.html
    Astrophysical jets: Simulations


  9. http://www.livingreviews.org/Articles/Volume2/1999-3marti/index.html (Secc. 7.2)
    Gamma-Ray Bursts: Introduction


  10. http://science.nasa.gov/newhome/headlines/ast02nov99_1.htm
    Gamma-Ray Bursts: Introduction and sims.


  11. http://www.mpa-garching.mpg.de/HIGHLIGHT/2000/highlight0003_e.html
    Gamma-Ray Bursts: Introduction and sims.


  12. http://www.ifa.hawaii.edu/faculty/barnes/saas-fee/chapter-outline.html
    Galactic dynamics and galactic interaction: Introduction and simulations


  13. http://www.MPA-Garching.MPG.DE/NumCos/
    Numerical Cosmology: Introduction and simulations


Capacitats prèvies

-  Fortran (basic level). Gnuplot. IDL (basic level).


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