Version 168 (modified by 9 years ago) ( diff ) | ,
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Documents and Papers
- Stone&Proga 2009
- Matsakos, Uribe & Königl 2015
- Matt & Balick 2004
- Matt & Pudritz 2008
- Cohen et al 2009
- Cohen et al 2011
Paper Figures
Co-rotating Parameters
Simulation and Restuls
4.15.2015
1. Parameters
Check blog:afrank04152015 for details
Hot Jupiter
Stellar Wind
km/s
Other parameters.
Resolution: 60 zone/planet radius -check
Allow planetary wind to fill grid for 2 of its own crossing times ( L_grid/V_pw(max) ) then turn on stellar wind and let it run for 10 crossing times ( L_grid/V_s )
2. Check lambda — no stellar wind
Rp=Outflow radius + thickness !! where the radius defines the location of boundary and thickness for wrapping up the velocity
ns/np=1e-4 gamma = 1.01;
lambda=2.6 | Mp = 0.5 Mj | Rp = 2Rj | Tp=2e4 | namb=1e-4 | low res movie | high res movie | ; zoomed high res movie |
lambda=5.3 | Mp = 0.5 Mj | Rp = 2Rj | Tp=1e4 | namb=1e-4 | low res movie | high res movie | |
lambda=5.3 | Mp = 0.5 Mj | Rp = 2Rj | Tp=1e4 | namb=1e-5 | high res movie | ;;zoomed in high res movie | |
lambda=5.3 | Mp = 0.5 Mj | Rp = 2Rj | Tp=1e4 | namb=1e-6 | high res movie | ||
lambda=5.3 | Mp = 0.5 Mj | Rp = 2Rj | Tp=1e4 | namb=1e-8 | high res movie | ||
lambda=5.3 | Mp = 1 Mj | Rp = 4Rj | Tp=1e4 | namb=1e-4 | low res movie | ||
lambda=10.6 | Mp = 1 Mj | Rp = 2Rj | Tp=1e4 | namb=1e-4 | low res movie | high res movie | |
lambda=10.6 | Mp = 0.5 Mj | Rp = 1Rj | Tp=1e4 | namb=1e-4 | low res movie | ||
lambda=10.6 | Mp = 0.5 Mj | Rp = 2Rj | Tp=5e3 | namb=1e-6 | Tamb=1000; zoomed in movie |
3. Backflow check for different line width of line plot — positive value means back flow
Where is the width of line plot for the integrate.
flux Vs time | Relative flux Vs lambda | |
L= 0.5 Rp at y=1.0 Rp | ||
L = 1 Rp at y=1.0 Rp |
at different positions | ; |
4. Runs and Results
Mp=0.5; Rp=2; lambda=5.3
# | gamma | Solar Wind Mach # | |||
1 | 1.01 | 0.8 | 10-4 | low res 2.5D | high res 2.5D |
2 | 1.01 | 0.8 | 10-4 | ||
3 | 1.3 | 0.8 | 10-4 | low res 2.5D namb=1e-4;low res 2.5D namb=1e-5;low res 2.5D namb=1e-8; | transfering |
4 | 1.3 | 0.8 | 10-4 | ||
5 | 1.01 | 5.0 | 10-4 | low res 2.5D | high res 2.5D |
6 | 1.01 | 5.0 | 10-4 | ||
7 | 1.01 | 5.0 | 10-5 | low res 2.5D;low res 2.5D large | high res 2.5D |
8 | 1.01 | 5.0 | 10-3 | low res 2.5D namb=1e-5 | to be analyzed |
9 | 1.3 | 5.0 | 10-4 | low res 2.5D namb=1e-5;low res 2.5D namb=1e-6 | high res 2.5D |
10 | 1.01 | 0.8 | 10-3 | low res 2.5D namb=1e-5; | analyzing |
5. New runs
Mp=0.5Mj; Vs=100km/s; namb=1e-6; lambda=5.3
# | gamma | Solar Wind Mach # | Tp | Ts | low-res results | high-res results | ||
1 | 1.01 | 0.8 | 10-5 | 1E4 K | 1.86E+6 K | low res 2.5D Tamb=0.01K small box; low res 2.5D Tamb=0.01K large box;low res 2.5D Tamb=1000K; | ; high res 2.5D new runs 128 frames; | | |
2 | 1.01 | 5.0 | 10-5 | 1E4 K | 47632.6 K | ;high res 2.5D Tamb=0.01K; | ||
3 | 1.3 | 0.8 | 10-5 | 1E4 K | 1.45E+6 K | low res 2.5D, Tamb=0.01K;low res 2.5D, Tamb=1000K; | ; high res 2.5D Tamb=1000K; | |
4 | 1.3 | 5.0 | 10-5 | 1E4 K | 37006.8 K | low res 2.5D Tamb=0.01K; low res 2.5D Tamb=1000K; | ; Zoomed high res 2.5D Tamb=1000K;Zoomed high res shorter version Tamb=1000K; |
6. 3D runs
Mp=0.5Mj; Vs=100km/s; namb=1e-6; lambda=5.3
# | gamma | Solar Wind Mach # | Tp | Ts | low-res results | high-res results | |
1 | 1.01 | 0.8 | 10-5 | 1E4 K | 1.86E+6 K | low res 3D rho;low res 3D T; low res 3D vol rendering; | |
2 | 1.01 | 5.0 | 10-5 | 1E4 K | 47632.6 K | low res 3D rho;low res 3D T; low res 3D vol rendering; | high res rho up to 185 frames; high res 3D vol rendering; high res zoomed rho up to 185 frames; ; |
3 | 1.3 | 0.8 | 10-5 | 1E4 K | 1.45E+6 K | to be analyzed? | |
4 | 1.3 | 5.0 | 10-5 | 1E4 K | 37006.8 K | to be analyzed? |
7. Rotating runs
Mp=0.5Mj; Vs=100km/s; namb=1e-6; lambda=5.3; star mass ~1 solar mass? distance between planet and star ~0.1AU, orbital angular velocity of the planet ~0.572 in C.U.
angular velocity of the Earth (1 AU from the sun: ~2.0E-7 rad/s angular velocity of the planet (~0.1AU from the sun): sqrt(1000)*2E-7 = 6.62E-6 rad/s time scale: 86400 angular velocity of the planet in C.U.: 6.62E-6 * 86400 = 0.572
In the co-rotating frame the stellar wind density if proportional to
# | gamma | Solar Wind Mach # | Tp | Ts | low-res results | high-res results | |
1 | 1.01 | 0.8 | 10-5 | 1E4 K | 1.86E+6 K | ||
2 | 1.01 | 5.0 | 10-5 | 1E4 K | 47632.6 K | omega=0.5 small box;omega=0.5 large box; | ; omega=0.5 high res larger window; omega=0.5 3D vol rendering; Three sects; omega=0.5 new refinement 16 zone per radius; |
3 | 1.3 | 0.8 | 10-5 | 1E4 K | 1.45E+6 K | ||
4 | 1.3 | 5.0 | 10-5 | 1E4 K | 37006.8 K |
8. Movies
1) Table 2. Row 3. Both zoomed and unzoomed movies 2.) Table 5. #1, # 2 and #4 (Zoomed in version for #4) 3.) Table 6. #2 all 3 movies (what happens with the "pulsing" of the pwind?) 4) Table 7. #2. Whatever we have. Cuts and Volume rendering.
avi | mov | mp4 | mpeg | |
1) | avi un-zoomed;avi zoomed; | mov un-zoomed;mov zoomed; | mp4 un-zoomed;mp4 zoomed; | mpeg un-zoomed;mpeg zoomed; |
2) | #2; #4; | #1; #2; #4; #4 shorter version; | #2; #4; | #2; #4; |
3) | Tri-section; | Tri-section; zoomed Tri-section; 3D volume rendering; | ||
4) | 1 section; tri-section; 3D volume rendering; low res very large window; |
Debugging Co-rotating Frame
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