ISIMA: Astrophysical Applications of Radiation Transport

1. ISIMA: Astrophysical Applications of Radiation Transport Mark Krumholz (UC Santa Cruz)

2. Simple Nonmagnetic Shocks 1, T1 2, T2 u1 u2 Upstream Downstream Shock front

3. Non-radiating ShockJump Conditions Mass conservation Momentum conservation Energy conservation Equation of state

4. Solution to Non-Radiating Shocks As :

5. Strongly Radiative Optically Thin Shock 

6. Cooling Shock Structure

7. Structure of a Molecular Cloud Pipe Nebula (Lombardi, Alves, & Lada 2006) -- optical Pipe Nebula (Lombardi, Alves, & Lada 2006) -- extinction

8. Jump Conditions for Optically Thick Shocks with Radiation

9. Subcritical Radiative Shocks Non-radiative Radiative subcritical

10. Taxonomy ofRadiative Shocks Radiation-dominated Subcritical Critical Supercritical

11. Width of a Radiation-Dominated Shock

12. Example of a Radiative Shock

13. Ionization Fronts J 1, T1 2, T2 u1 u2 Upstream / neutral Downstream / ionized Ionization front

14. I-Front Jump Conditions 

15. Allowed Ionization Fronts

16. Ionization + Shock Fronts J 1, T1 2, T2 0, T0 u1 u2 u0 Upstream / neutral Shocked / neutral Downstream / ionized Shock front Ionization front

17. Spherical I-Front in Uniform Medium: R-Phase RS Q0 Ionized Neutral

18. Spherical I-Front in Uniform Medium: D-Phase Dense shell Ri Q0 Ionized Neutral

19. D-Type Similarity Solution Similarity solution:

20. Ionized Region with B Field