This site presents results from.
Run “ENLIL” with “WSA” data and specified “Cone” parameters and produce various plots:
wplots-bnd = Boundary conditions
wplots-evo = Evolution of solar wind parameters
wplots-los = Synthetic white-light images
wplots-rad = Radial profiles
wplots-sho = Shock alert plots
wplots-tim = Distribution of solar wind parameters
The master scriot can be executed by a single command:
xwcone [-<parameter> <value>]
or, alternatively, by individual steps:
| command | action |
|---|---|
xwcone case [-<parameter> <value>] |
Set input parameters and execute the case codes |
xwcone plot_case [-<parameter> <value>] |
Plot results of the case computation |
xwcone run [-<parameter> <value>] |
Set input parameters and execute the run code |
xwcone data_run [-<parameter> <value>] |
Calculate data results from the run computation |
xwcone plot_run [-<parameter> <value>] |
Plot results of the run computation |
xwcone clean [-<parameter> <value>] |
Clean the project directory |
The following parameters can be used to modify their default values (see the master script for details):
| argument | comment |
|---|---|
-project <char> |
Project name: |
-projrun <int> |
Project run (0=relax+phys, 1=relax, 2=phys): |
-numo <char> |
Numerical model setting: |
-nreg <int> |
Computational grid mode: |
-reg <int> |
Computational region (AU): |
-res <char> |
Numerical grid resolution: |
-obsdate <char> |
Use observations at or up to this date: |
-rundate <char> |
Start computation at this date: |
-tstop <float> |
Stop computation at this time (h): |
-tstep <float> |
Output with this step in time (h): |
-istep <int> |
Plot with this step in output files: |
-cordata <char> |
Coronal data sub-directory: |
-corfile <char> |
Coronal data file (null if cordata/corymdh used): |
-cormode <char> |
Coronal data mode: |
-corobs <char> |
Solar photospheric field observatory: |
-correa <char> |
Realization of the WSADA coronal map: |
-corymdh <char> |
Coronal data sub-sub-directory structure by date: |
-crnum <char> |
Carrington Rotation number: |
-crlon <char> |
Carrington Rotation leading longitude: |
-amb <char> |
Ambient wind conditions setting: |
-bndrot <char> |
Rotation of the inner boundary: |
-maxcmes <int> |
Maximum number of simulated CMEs (depends on system memory): |
-ncmes <int> |
Number of simulated CMEs: |
-cld <char> |
Hydrodynamic cloud conditions setting: |
-timramp <float> |
Transition from background to transient (h): |
-dates <char> |
Cloud leading edge at boundary at this date: |
-lat <float> |
Cone central axis latitude (deg): |
-lon <float> |
Cone central axis longitude (deg): |
-rmajor <float> |
Cone major radius (deg): |
-rminor <float> |
Cone (ellipsoid) minot radius (deg): |
-tilt <float> |
Cone (ellipsoid) tilt from equator (deg) |
-dcld <float> |
Cloud density / fast stream density: |
-dcld0 <float> |
Cloud background density (cm-3): |
-tcld <float> |
Cloud temperature / fast stream temperature: |
-tcld0 <float> |
Cloud background temperature (MK): |
-vcld <float> |
Cloud velocity (km/s): |
-xcld <float> |
Cloud trailing elongation over spherical shape: |
-ncld <int> |
Cloud shape (1=piston, 2=sphesymbnd, 3=sphesymcen, 4=sphekincen): |
-dcav <float> |
Cavity density / fast stream density: |
-tcav <float> |
Cavity temperature / fast stream temperature: |
-xcav <float> |
Cavity radius / cloud radius: |
-dtail <float> |
Tail density / fast stream density: |
-ttail <float> |
Tail temperature / fast stream temperature: |
-vtail <float> |
Tail velocity (km/s): |
-xtail <float> |
Tail elongation over spherical shape: |
-ntail <int> |
Tail temporal decline (0=none, 1=back, 2=half, 3=full): |
-runpar <char> |
Run parameters: gamma and heating: |
NOTE: - The first value in the list is the default value.