136 | | A rate of 4.7863x10^-22^ was used, which is fairly consistent with Dalgarno McCray. So if we have a domain that is 30 AU and we want 10 cells per cooling length, then we would need a resolution of about 94 cells. That doesn't seem too bad, so I will round up to 100 and start from there. |
| 136 | A rate of 4.7863x10^-22^ was used, which is fairly consistent with Dalgarno !McCray. So if we have a domain that is 30 AU and we want 10 cells per cooling length, then we would need a resolution of about 94 cells. That doesn't seem too bad, so I will round up to 100 and start from there. |
| 137 | [[BR]] |
| 138 | ==== Simulations ==== |
| 139 | Here we look at what post-shock temperature the simulation gives as a function of the effective resolution. The effective resolution is the = (# cells) x 2^(# AMR levels)^. |
| 140 | ||= Effective Resolution =||= cells/lcool =||= Tps (10^3^ K) =|| |
| 141 | ||= 100 =||= 10.68 =||= =|| |
| 142 | ||= 200 =||= 21.36 =||= =|| |
| 143 | ||= 400 =||= 42.71 =||= =|| |
| 144 | ||= 800 =||= 85.43 =||= =|| |
| 145 | ||= 1600 =||= 170.85 =||= =|| |
| 146 | ||= 3200 =||= 341.70 =||= =|| |