1 | | t |
| 1 | Target values for jet quantities (to be split exactly over the top and bottom outflow cones, and in the case of momentum -- in opposite directions): |
| 2 | |
| 3 | || '''Quantity''' || '''Target Value''' || '''Description''' || |
| 4 | || Mass, $M_{out}$ || $f_m M'_{sink}$ || Some fraction of accreted mass || |
| 5 | || (Radial) Momentum, $P_{r, out}$ ||$M_{out} V_{esc} \cdot \frac{r}{||r||}$ || The outflow mass has radial velocity = escape speed at surface of protostar || |
| 6 | || Angular Momentum, $L_{out}$ || $f_a |S'_{sink}-S_{sink}| \cdot \frac{S'}{||S'||}$ || Some fraction of accreted spin angular momentum, perhaps we can make this more physical, and align along different axis || |
| 7 | || !Energy/Temperature || ?? || Should we inject a temperature into the jet?? This wouldn't be self-consistent/conservative since we don't assign a temp to the sink particle || |