wiki:u/keirajb/PN_Library

Version 82 (modified by keirajb, 11 years ago) ( diff )

BackLinksMenu

Planetary Nebula Library: Hydro Runs

Reason for Library

Here we explore a variety of possible parameters and environments that can shape planetary nebulae, presented in various forms. This library will record a number of combinations of different density backgrounds and types of flows and also any parameter changes within those different combinations. The environments and flow structures are listed below.

Environments:

  • Constant Ambient: The surrounding density is initially constant.
  • Stratified Ambient: The surrounding density falls off as 1/r2.
  • Toroidal Ambient: The surrounding density decays from the equator to the pole as defined in Frank & Mellema, 1994 Apj by the following variables:
    • describes the contrast in density of the torus from the pole to the equator.
    • describes how elliptical or spherical the torus is. Small values coincide with a more elliptical torus while values closer to 1 indicate a more spherical torus.

Flow Structures:

  • Clump: A spherical cloud of gas.
  • Jet: A constant stream of gas.
  • Diverging Wind: A constant stream of gas that sweeps an arc in the surrounding medium.

Please see Ruka's PN Page for more movies and additional information.

Below are the standard parameters used in each run. Any changes to these parameters will be noted.

Standard Parameters
Jet Radius 500 AU
Jet Density 40,000 cm-3
Jet Temperature 10 K
Ambient Density 400 cm-3
Ambient Temperature 1 K
Torus Alpha () .7
Torus Beta () .8

The tables below will be updated periodically with movies of new runs and their parameters with the newest runs appearing first.

Update 10/2: Please note that the layout has been changed. Relevant older models have been updated with the next color bars and ranges. The new models are being added and examined for significant differences when compared to existing models.

Go here to find a list of changes that were made today.

Toroidal + Stratified Ambient

Jet


Jet Velocity = 100 km/s Jet Velocity = 200 km/s Jet Velocity = 300 km/s Velocity Comparison
https://dl.dropboxusercontent.com/u/35223511/Research/Jet/v.100/v100_dens_temp0000.pngmovie https://dl.dropboxusercontent.com/u/35223511/Research/Jet/v.200/v200_dens_temp0000.png movie https://dl.dropboxusercontent.com/u/35223511/Research/Jet/v.300/v300_dens_temp0000.png movie https://dl.dropboxusercontent.com/u/35223511/Research/Jet/3v_dens0001.png
https://dl.dropboxusercontent.com/u/35223511/Research/Jet/v.100/v100_ratio_ram_therm0000.png movie https://dl.dropboxusercontent.com/u/35223511/Research/Jet/v.200/v200_ratio_ram_therm0000.png movie https://dl.dropboxusercontent.com/u/35223511/Research/Jet/v.300/v300_ratio_ram_therm0000.png movie



Changes to Standard Parameters
Jet Temperature 10,000 K


Jet Velocity = 100 km/s Jet Velocity = 200 km/s Jet Velocity = 300 km/s Jet Velocity = 500 km/s Velocity Comparison
https://dl.dropboxusercontent.com/u/35223511/Research/Jet/vt.100/vt100_dens_temp0000.png movie https://dl.dropboxusercontent.com/u/35223511/Research/Jet/vt.200/vt200_dens_temp0000.pngmovie https://dl.dropboxusercontent.com/u/35223511/Research/Jet/vt.300/vt300_dens_temp0000.pngmovie https://dl.dropboxusercontent.com/u/35223511/Research/Jet/vt.500/vt500_dens_temp0000.png *Note time difference!* https://dl.dropboxusercontent.com/u/35223511/Research/Jet/3vt_dens0001.png
https://dl.dropboxusercontent.com/u/35223511/Research/Jet/vt.100/vt100_ratio_ram_therm0001.png movie https://dl.dropboxusercontent.com/u/35223511/Research/Jet/vt.200/vt200_ratio_ram_therm0000.pngmovie https://dl.dropboxusercontent.com/u/35223511/Research/Jet/vt.300/vt300_ratio_ram_therm0001.pngmovie https://dl.dropboxusercontent.com/u/35223511/Research/Jet/vt.500/vt500_ratio_ram_therm0000.png



Changes to Standard Parameters
Jet Temperature 10,000 K
Ambient Density 1,000 cm-3


Jet Velocity = 300 km/s
https://dl.dropboxusercontent.com/u/35223511/Research/Jet/vamb.300/vamb300_dens_temp0000.png
https://dl.dropboxusercontent.com/u/35223511/Research/Jet/vamb.300/vamb300_ratio_ram_therm0000.png



Changes to Standard Parameters
Ambient Temperature 100 K


Jet Velocity = 100 km/s
https://dl.dropboxusercontent.com/u/35223511/Research/Jet/tamb100_dens_temp0000.png *No significant difference between this model and the 100 km/s jet in an ambient with T = 10K*




Clump


Clump Velocity = 100 km/s Clump Velocity = 200 km/s Clump Velocity = 300 km/s Velocity Comparison
https://dl.dropboxusercontent.com/u/35223511/Research/Clump/v.100/v100_dens_temp0000.pngmovie https://dl.dropboxusercontent.com/u/35223511/Research/Clump/v.200/v200_dens_temp0000.png movie https://dl.dropboxusercontent.com/u/35223511/Research/Clump/v.300/v300_dens_temp0000.png movie https://dl.dropboxusercontent.com/u/35223511/Research/Clump/3v_dens0000.png
https://dl.dropboxusercontent.com/u/35223511/Research/Clump/v.100/v100_ratio_ram_therm0000.pngmovie https://dl.dropboxusercontent.com/u/35223511/Research/Clump/v.200/v200_ratio_ram_therm0000.pngmovie https://dl.dropboxusercontent.com/u/35223511/Research/Clump/v.300/v300_ratio_ram_therm0000.pngmovie


Constant Ambient

Jet


Changes to Standard Parameters
Ambient Density 1 cm-3


Jet Velocity = 100 km/s Jet Velocity = 200 km/s Jet Velocity = 300 km/s Velocity Comparison
https://dl.dropboxusercontent.com/u/35223511/Research/Jet_const/v.100/v100_dens_temp0000.png https://dl.dropboxusercontent.com/u/35223511/Research/Jet_const/v.200/v200_dens_temp0000.png https://dl.dropboxusercontent.com/u/35223511/Research/Jet_const/v.300/v300_dens_temp0000.png https://dl.dropboxusercontent.com/u/35223511/Research/Jet_const/3v_dens0000.png
Note: See TracWiki for help on using the wiki.