Changes between Version 4 and Version 5 of u/lchamandy
- Timestamp:
- 08/07/19 14:25:25 (6 years ago)
Legend:
- Unmodified
- Added
- Removed
- Modified
-
u/lchamandy
v4 v5 1 = Updated Movie Library for Runs 132, 143, 149, 151 = 1 = Movies Made Using Common Envelope Simulation Data = 2 3 [https://ui.adsabs.harvard.edu/abs/2018MNRAS.480.1898C/abstract Paper I] 4 [https://ui.adsabs.harvard.edu/abs/2019MNRAS.486.1070C/abstract Paper II] 5 Paper 3: Chamandy+2019b (available soon) 2 6 3 7 == Density (zoomed in) in lab frame == 4 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run143/rho2D_faceon_zoom_143.gif Face-on density ( Run 143: No subgrid accretion, M2 = 1 Msun)]\\5 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run149/rho2D_faceon_zoom_149.gif Face-on density ( Run 149: No subgrid accretion, M2 = 0.5 Msun)]\\6 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run151/rho2D_faceon_zoom_151.gif Face-on density ( Run 151: No subgrid accretion, M2 = 0.25 Msun)]\\8 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run143/rho2D_faceon_zoom_143.gif Face-on density (Model A: No subgrid accretion, M2 = 1 Msun)]\\ 9 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run149/rho2D_faceon_zoom_149.gif Face-on density (Model IIIB: No subgrid accretion, M2 = 0.5 Msun)]\\ 10 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run151/rho2D_faceon_zoom_151.gif Face-on density (Model IIIC: No subgrid accretion, M2 = 0.25 Msun)]\\ 7 11 8 12 == Movies corresponding to figures in Paper 1 == … … 10 14 11 15 '''Figure 1/Figure 2---face-on density:'''\\ 12 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run143/Paper1/Figure1_density_face-on_zoomed_143/rho___sliceP2_faceon_lview_250o0Rsun_P1dir_left_1e-08_0o01_orangehot_143.gif Face-on density ( Run 143: No subgrid accretion, M2 = 1 Msun)]\\16 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run143/Paper1/Figure1_density_face-on_zoomed_143/rho___sliceP2_faceon_lview_250o0Rsun_P1dir_left_1e-08_0o01_orangehot_143.gif Face-on density (Model A: No subgrid accretion, M2 = 1 Msun)]\\ 13 17 14 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp132/Paper1/Figure2_density_face-on_zoomed_132/rho___sliceP2_faceon_lview_250o0Rsun_P1dir_left_1e-08_0o01_orangehot_132.gif Face-on density ( Run 132: Subgrid accretion, M2 = 1 Msun)]\\18 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp132/Paper1/Figure2_density_face-on_zoomed_132/rho___sliceP2_faceon_lview_250o0Rsun_P1dir_left_1e-08_0o01_orangehot_132.gif Face-on density (Model IB: Subgrid accretion, M2 = 1 Msun)]\\ 15 19 16 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run149/Paper1/Figure1_density_face-on_zoomed_149/rho___sliceP2_faceon_lview_250.0Rsun_P1dir_left_1e-08_0.01_orangehot_149.gif Face-on density ( Run 149: No subgrid accretion, M2 = 0.5 Msun)]\\20 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run149/Paper1/Figure1_density_face-on_zoomed_149/rho___sliceP2_faceon_lview_250.0Rsun_P1dir_left_1e-08_0.01_orangehot_149.gif Face-on density (Model IIIB: No subgrid accretion, M2 = 0.5 Msun)]\\ 17 21 18 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run151/Paper1/Figure1_density_face-on_zoomed_151/rho___sliceP2_faceon_lview_250.0Rsun_P1dir_left_1e-08_0.01_orangehot_151.gif Face-on density ( Run 151: No subgrid accretion, M2 = 0.25 Msun)]\\22 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run151/Paper1/Figure1_density_face-on_zoomed_151/rho___sliceP2_faceon_lview_250.0Rsun_P1dir_left_1e-08_0.01_orangehot_151.gif Face-on density (Model IIIC: No subgrid accretion, M2 = 0.25 Msun)]\\ 19 23 20 24 '''Figure 4 top panel---edge-on density:'''\\ 21 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run143/Paper1/Figure4_density_edge-on_zoomed_143/rho___sliceP2_edgeonthroughparticles_lview_250.0Rsun_P1dir_left_1e-08_0.01_orangehot_143.gif Edge-on density ( Run 143: No subgrid accretion, M2 = 1 Msun)]\\25 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run143/Paper1/Figure4_density_edge-on_zoomed_143/rho___sliceP2_edgeonthroughparticles_lview_250.0Rsun_P1dir_left_1e-08_0.01_orangehot_143.gif Edge-on density (Model A: No subgrid accretion, M2 = 1 Msun)]\\ 22 26 23 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp132/Paper1/Figure4_density_edge-on_zoomed_132/rho___sliceP2_edgeonthroughparticles_lview_250.0Rsun_P1dir_left_1e-08_0.01_orangehot_132.gif Edge-on density ( Run 132: Subgrid accretion, M2 = 1 Msun)]\\27 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp132/Paper1/Figure4_density_edge-on_zoomed_132/rho___sliceP2_edgeonthroughparticles_lview_250.0Rsun_P1dir_left_1e-08_0.01_orangehot_132.gif Edge-on density (Model IB: Subgrid accretion, M2 = 1 Msun)]\\ 24 28 25 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run149/Paper1/Figure4_density_edge-on_zoomed_149/rho___sliceP2_edgeonthroughparticles_lview_250.0Rsun_P1dir_left_1e-08_0.01_orangehot_149.gif Edge-on density ( Run 149: No subgrid accretion, M2 = 0.5 Msun)]\\29 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run149/Paper1/Figure4_density_edge-on_zoomed_149/rho___sliceP2_edgeonthroughparticles_lview_250.0Rsun_P1dir_left_1e-08_0.01_orangehot_149.gif Edge-on density (Model IIIB: No subgrid accretion, M2 = 0.5 Msun)]\\ 26 30 27 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run151/Paper1/Figure4_density_edge-on_zoomed_151/rho___sliceP2_edgeonthroughparticles_lview_250.0Rsun_P1dir_left_1e-08_0.01_orangehot_151.gif Edge-on density ( Run 151: No subgrid accretion, M2 = 0.25 Msun)]\\31 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run151/Paper1/Figure4_density_edge-on_zoomed_151/rho___sliceP2_edgeonthroughparticles_lview_250.0Rsun_P1dir_left_1e-08_0.01_orangehot_151.gif Edge-on density (Model IIIC: No subgrid accretion, M2 = 0.25 Msun)]\\ 28 32 29 33 '''Figure 4 bottom panel---edge-on density, zoomed in:'''\\ 30 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run143/Paper1/Figure4_density_edge-on_zoomed_143/rho___sliceP2_edgeonthroughparticles_lview_30.0Rsun_P1dir_left_1e-06_0.01_Spectral_143.gif Edge-on density (zoomed in) ( Run 143: No subgrid accretion, M2 = 1 Msun)]\\34 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run143/Paper1/Figure4_density_edge-on_zoomed_143/rho___sliceP2_edgeonthroughparticles_lview_30.0Rsun_P1dir_left_1e-06_0.01_Spectral_143.gif Edge-on density (zoomed in) (Model A: No subgrid accretion, M2 = 1 Msun)]\\ 31 35 32 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp132/Paper1/Figure4_density_edge-on_zoomed_132/rho___sliceP2_edgeonthroughparticles_lview_30.0Rsun_P1dir_left_1e-06_0.01_Spectral_132.gif Edge-on density (zoomed in) ( Run 132: Subgrid accretion, M2 = 1 Msun)]\\36 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp132/Paper1/Figure4_density_edge-on_zoomed_132/rho___sliceP2_edgeonthroughparticles_lview_30.0Rsun_P1dir_left_1e-06_0.01_Spectral_132.gif Edge-on density (zoomed in) (Model IB: Subgrid accretion, M2 = 1 Msun)]\\ 33 37 34 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run149/Paper1/Figure4_density_edge-on_zoomed_149/rho___sliceP2_edgeonthroughparticles_lview_30.0Rsun_P1dir_left_1e-06_0.01_Spectral_149.gif Edge-on density (zoomed in) ( Run 149: No subgrid accretion, M2 = 0.5 Msun)]\\38 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run149/Paper1/Figure4_density_edge-on_zoomed_149/rho___sliceP2_edgeonthroughparticles_lview_30.0Rsun_P1dir_left_1e-06_0.01_Spectral_149.gif Edge-on density (zoomed in) (Model IIIB: No subgrid accretion, M2 = 0.5 Msun)]\\ 35 39 36 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run151/Paper1/Figure4_density_edge-on_zoomed_151/rho___sliceP2_edgeonthroughparticles_lview_30.0Rsun_P1dir_left_1e-06_0.01_Spectral_151.gif Edge-on density (zoomed in) ( Run 151: No subgrid accretion, M2 = 0.25 Msun)]\\40 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run151/Paper1/Figure4_density_edge-on_zoomed_151/rho___sliceP2_edgeonthroughparticles_lview_30.0Rsun_P1dir_left_1e-06_0.01_Spectral_151.gif Edge-on density (zoomed in) (Model IIIC: No subgrid accretion, M2 = 0.25 Msun)]\\ 37 41 38 42 '''Figure 6---flow around companion:'''\\ 39 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run143/Paper1/Figure8_velocity_143/v_phi_over_v_Kepler_corot_rel_2_vVec_corot_rel_2_v_phi_over_v_Kepler_corot_rel_2_sliceP2_faceon_lview_30.0Rsun_P1dir_left_-1_0.5_rainbow_143.gif Tangential velocity with velocity vectors ( Run 143: No subgrid accretion, M2 = 1 Msun)]\\43 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run143/Paper1/Figure8_velocity_143/v_phi_over_v_Kepler_corot_rel_2_vVec_corot_rel_2_v_phi_over_v_Kepler_corot_rel_2_sliceP2_faceon_lview_30.0Rsun_P1dir_left_-1_0.5_rainbow_143.gif Tangential velocity with velocity vectors (Model A: No subgrid accretion, M2 = 1 Msun)]\\ 40 44 41 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp132/Paper1/Figure8_velocity_132/v_phi_over_v_Kepler_corot_rel_2_vVec_corot_rel_2_v_phi_over_v_Kepler_corot_rel_2_sliceP2_faceon_lview_30.0Rsun_P1dir_left_-1_0.5_rainbow_132.gif Tangential velocity with velocity vectors ( Run 132: Subgrid accretion, M2 = 1 Msun)]\\45 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp132/Paper1/Figure8_velocity_132/v_phi_over_v_Kepler_corot_rel_2_vVec_corot_rel_2_v_phi_over_v_Kepler_corot_rel_2_sliceP2_faceon_lview_30.0Rsun_P1dir_left_-1_0.5_rainbow_132.gif Tangential velocity with velocity vectors (Model IB: Subgrid accretion, M2 = 1 Msun)]\\ 42 46 43 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run149/Paper1/Figure8_velocity_149/v_phi_over_v_Kepler_corot_rel_2_vVec_corot_rel_2_v_phi_over_v_Kepler_corot_rel_2_sliceP2_faceon_lview_30.0Rsun_P1dir_left_-1_0.5_rainbow_149.gif Tangential velocity with velocity vectors ( Run 149: No subgrid accretion, M2 = 0.5 Msun)]\\47 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run149/Paper1/Figure8_velocity_149/v_phi_over_v_Kepler_corot_rel_2_vVec_corot_rel_2_v_phi_over_v_Kepler_corot_rel_2_sliceP2_faceon_lview_30.0Rsun_P1dir_left_-1_0.5_rainbow_149.gif Tangential velocity with velocity vectors (Model IIIB: No subgrid accretion, M2 = 0.5 Msun)]\\ 44 48 45 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run151/Paper1/Figure8_velocity_151/v_phi_over_v_Kepler_corot_rel_2_vVec_corot_rel_2_v_phi_over_v_Kepler_corot_rel_2_sliceP2_faceon_lview_30.0Rsun_P1dir_left_-1_0.5_rainbow_151.gif Tangential velocity with velocity vectors ( Run 151: No subgrid accretion, M2 = 0.25 Msun)]\\49 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run151/Paper1/Figure8_velocity_151/v_phi_over_v_Kepler_corot_rel_2_vVec_corot_rel_2_v_phi_over_v_Kepler_corot_rel_2_sliceP2_faceon_lview_30.0Rsun_P1dir_left_-1_0.5_rainbow_151.gif Tangential velocity with velocity vectors (Model IIIC: No subgrid accretion, M2 = 0.25 Msun)]\\ 46 50 47 51 == Movies corresponding to figures in paper 2 == … … 49 53 50 54 '''Figure 3 top row---face-on normalized gas binding energy (red means unbound, blue means bound, yellow is density contours, vectors are velocity):'''\\ 51 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run143/E_bind_normalized_vVec_rho_sliceP2_faceon_lview_500Rsun_P1dir_box_-1_1_RdBu_143.gif Face-on normalized energy ( Run 143: No subgrid accretion, M2 = 1 Msun)]\\55 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run143/E_bind_normalized_vVec_rho_sliceP2_faceon_lview_500Rsun_P1dir_box_-1_1_RdBu_143.gif Face-on normalized energy (Model A: No subgrid accretion, M2 = 1 Msun)]\\ 52 56 53 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run149/E_bind_normalized_vVec_rho_sliceP2_faceon_lview_500Rsun_P1dir_box_-1_1_RdBu_149.gif Face-on normalized energy ( Run 149: No subgrid accretion, M2 = 0.5 Msun)]\\57 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run149/E_bind_normalized_vVec_rho_sliceP2_faceon_lview_500Rsun_P1dir_box_-1_1_RdBu_149.gif Face-on normalized energy (Model IIIB: No subgrid accretion, M2 = 0.5 Msun)]\\ 54 58 55 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run151/E_bind_normalized_vVec_rho_sliceP2_faceon_lview_500Rsun_P1dir_box_-1_1_RdBu_151.gif Face-on normalized energy ( Run 151: No subgrid accretion, M2 = 0.25 Msun)]\\59 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run151/E_bind_normalized_vVec_rho_sliceP2_faceon_lview_500Rsun_P1dir_box_-1_1_RdBu_151.gif Face-on normalized energy (Model IIIC: No subgrid accretion, M2 = 0.25 Msun)]\\ 56 60 57 61 '''Figure 3 second from top row---face-on normalized gas kinetic energy (magenta means thermal energy dominates, green means bulk KE dominates, yellow is density contours, vectors are velocity):'''\\ 58 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run143/E_int_kin_normalized_vVec_rho_sliceP2_faceon_lview_500Rsun_P1dir_box_-1_1_PiYG_143.gif Face-on normalized kinetic energy ( Run 143: No subgrid accretion, M2 = 1 Msun)]\\62 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run143/E_int_kin_normalized_vVec_rho_sliceP2_faceon_lview_500Rsun_P1dir_box_-1_1_PiYG_143.gif Face-on normalized kinetic energy (Model A: No subgrid accretion, M2 = 1 Msun)]\\ 59 63 60 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run149/E_int_kin_normalized_vVec_rho_sliceP2_faceon_lview_500Rsun_P1dir_box_-1_1_PiYG_149.gif Face-on normalized kinetic energy ( Run 149: No subgrid accretion, M2 = 0.5 Msun)]\\64 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run149/E_int_kin_normalized_vVec_rho_sliceP2_faceon_lview_500Rsun_P1dir_box_-1_1_PiYG_149.gif Face-on normalized kinetic energy (Model IIIB: No subgrid accretion, M2 = 0.5 Msun)]\\ 61 65 62 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run151/E_int_kin_normalized_vVec_rho_sliceP2_faceon_lview_500Rsun_P1dir_box_-1_1_PiYG_151.gif Face-on normalized kinetic energy ( Run 151: No subgrid accretion, M2 = 0.25 Msun)]\\66 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run151/E_int_kin_normalized_vVec_rho_sliceP2_faceon_lview_500Rsun_P1dir_box_-1_1_PiYG_151.gif Face-on normalized kinetic energy (Model IIIC: No subgrid accretion, M2 = 0.25 Msun)]\\ 63 67 64 68 == Extra Movies == 65 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run143/Paper1/Temperature/Temperature___sliceP2_faceon_lview_250.0Rsun_P1dir_left_1000.0_10000000.0_viridis_143.gif Temperature ( Run 143: No subgrid accretion, M2 = 1 Msun)]\\69 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run143/Paper1/Temperature/Temperature___sliceP2_faceon_lview_250.0Rsun_P1dir_left_1000.0_10000000.0_viridis_143.gif Temperature (Model A: No subgrid accretion, M2 = 1 Msun)]\\ 66 70 67 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp132/Paper1/Temperature/Temperature___sliceP2_faceon_lview_250.0Rsun_P1dir_left_1000.0_10000000.0_viridis_132.gif Temperature ( Run 132: Subgrid accretion, M2 = 1 Msun)]\\71 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp132/Paper1/Temperature/Temperature___sliceP2_faceon_lview_250.0Rsun_P1dir_left_1000.0_10000000.0_viridis_132.gif Temperature (Model IB: Subgrid accretion, M2 = 1 Msun)]\\ 68 72 69 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run149/Temperature___sliceP2_faceon_lview_250Rsun_P1dir_box_1000.0_10000000.0_viridis_149.gif Temperature ( Run 149: No subgrid accretion, M2 = 0.5 Msun)]\\73 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run149/Temperature___sliceP2_faceon_lview_250Rsun_P1dir_box_1000.0_10000000.0_viridis_149.gif Temperature (Model IIIB: No subgrid accretion, M2 = 0.5 Msun)]\\ 70 74 71 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run151/Temperature___sliceP2_faceon_lview_250Rsun_P1dir_box_1000.0_10000000.0_viridis_151.gif Temperature ( Run 151: No subgrid accretion, M2 = 0.25 Msun)]\\75 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run151/Temperature___sliceP2_faceon_lview_250Rsun_P1dir_box_1000.0_10000000.0_viridis_151.gif Temperature (Model IIIC: No subgrid accretion, M2 = 0.25 Msun)]\\ 72 76 73 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run143/Paper1/c_s/c_s___sliceP2_faceon_lview_250.0Rsun_P1dir_left_500000.0_50000000.0_viridis_143.gif Sound speed ( Run 143: No subgrid accretion, M2 = 1 Msun)]\\77 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run143/Paper1/c_s/c_s___sliceP2_faceon_lview_250.0Rsun_P1dir_left_500000.0_50000000.0_viridis_143.gif Sound speed (Model A: No subgrid accretion, M2 = 1 Msun)]\\ 74 78 75 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp132/Paper1/c_s/c_s___sliceP2_faceon_lview_250.0Rsun_P1dir_left_500000.0_50000000.0_viridis_132.gif Sound speed ( Run 132: Subgrid accretion, M2 = 1 Msun)]\\79 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp132/Paper1/c_s/c_s___sliceP2_faceon_lview_250.0Rsun_P1dir_left_500000.0_50000000.0_viridis_132.gif Sound speed (Model IB: Subgrid accretion, M2 = 1 Msun)]\\ 76 80 77 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run143/Paper1/Mach/Mach___sliceP2_faceon_lview_250.0Rsun_P1dir_left_0.1_10_difference_143.gif Mach, lab frame ( Run 143: No subgrid accretion, M2 = 1 Msun)]\\81 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run143/Paper1/Mach/Mach___sliceP2_faceon_lview_250.0Rsun_P1dir_left_0.1_10_difference_143.gif Mach, lab frame (Model A: No subgrid accretion, M2 = 1 Msun)]\\ 78 82 79 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp132/Paper1/Mach/Mach___sliceP2_faceon_lview_250.0Rsun_P1dir_left_0.1_10_difference_132.gif Mach, lab frame ( Run 132: Subgrid accretion, M2 = 1 Msun)]\\83 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp132/Paper1/Mach/Mach___sliceP2_faceon_lview_250.0Rsun_P1dir_left_0.1_10_difference_132.gif Mach, lab frame (Model IB: Subgrid accretion, M2 = 1 Msun)]\\ 80 84 81 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run143/Paper1/Mach/Mach_corot_rel_2___sliceP2_faceon_lview_250.0Rsun_P1dir_left_0.01_100_difference_143.gif Mach, frame corotating about secondary ( Run 143: No subgrid accretion, M2 = 1 Msun)]\\85 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Run143/Paper1/Mach/Mach_corot_rel_2___sliceP2_faceon_lview_250.0Rsun_P1dir_left_0.01_100_difference_143.gif Mach, frame corotating about secondary (Model A: No subgrid accretion, M2 = 1 Msun)]\\ 82 86 83 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp132/Paper1/Mach/Mach_corot_rel_2___sliceP2_faceon_lview_250.0Rsun_P1dir_left_0.01_100_difference_132.gif Mach, frame corotating about secondary ( Run 132: Subgrid accretion, M2 = 1 Msun)]\\87 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp132/Paper1/Mach/Mach_corot_rel_2___sliceP2_faceon_lview_250.0Rsun_P1dir_left_0.01_100_difference_132.gif Mach, frame corotating about secondary (Model IB: Subgrid accretion, M2 = 1 Msun)]\\ 84 88 85 == Side-by-side comparison of Model A /143 (left) and Model B/132(right) from Paper 1 ==89 == Side-by-side comparison of Model A (left) and Model IB (right) from Paper 1 == 86 90 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Compare_143_132/Figures1-2_rho.gif Face-on density]\\ 87 91 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Compare_143_132/Figures4top_rho.gif Edge-on density]\\ … … 93 97 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Compare_143_132/Mach_corot_rel_2.gif Mach in frame corotating about secondary]\\ 94 98 99