Model Requirements
LATMOS
Documentation:
For the GCM-ionosphere
For Solar Max:
Heliosares_Ionos_Ls0_SolMax1_26_01_15.nc
Heliosares_Ionos_Ls90_SolMax1_26_01_15.nc
Heliosares_Ionos_Ls180_SolMax1_26_01_15.nc
Heliosares_Ionos_Ls270_SolMax1_26_01_15.nc
For Solar Mean:
Heliosares_Ionos_Ls0_SolMean1_11_02_13.nc
Heliosares_Ionos_Ls90_SolMean1_11_02_13.nc
Heliosares_Ionos_Ls180_SolMean1_12_02_13.nc
Heliosares_Ionos_Ls270_SolMean1_12_02_13.nc
For Solar Min:
Heliosares_Ionos_Ls0_SolMin1_26_01_15.nc
Heliosares_Ionos_Ls90_SolMin1_26_01_15.nc
Heliosares_Ionos_Ls180_SolMin1_26_01_15.nc
Heliosares_Ionos_Ls270_SolMin1_26_01_15.nc
For the Hybrid (RUN1, RUN2, coupling GCM+EGM+hybrid)
RUN1
Magw_18_06_14_t00600.nc
Elew_18_06_14_t00600.nc
Thew_18_06_14_t00600.nc
Hsw_18_06_14_t00600.nc
Hesw_18_06_14_t00600.nc
Hpl_18_06_14_t00600.nc
Opl_18_06_14_t00600.nc
O2pl_18_06_14_t00600.nc
CO2pl_18_06_14_t00600.nc
RUN2
Magw_30_06_14_t00600.nc
Elew_30_06_14_t00600.nc
Thew_30_06_14_t00600.nc
Hsw_30_06_14_t00600.nc
Hesw_30_06_14_t00600.nc
Hpl_30_06_14_t00600.nc
Opl_30_06_14_t00600.nc
O2pl_30_06_14_t00600.nc
CO2pl_30_06_14_t00600.nc
For the EGM (exosphere)
EGM_Ls180_Sol0_1.nc
EGM_Ls0_Sol0_1.nc
M-GITM, M-AMPS, MHD
Documentation:
- MGITM Caveats - 2015-09-04
- How to convert E. Longitude to Solar Local Time - 2015-09-01
- MHD Readme - 2015-06-23
MGITM
For Solar Max (F10.7 = 200):
MGITM_LS270_F200_150615.nc
MGITM_LS270_F200_150615.dat
MGITM_LS180_F200_150615.nc
MGITM_LS180_F200_150615.dat
MGITM_LS090_F200_150813.nc
MGITM_LS090_F200_150813.dat
MGITM_LS000_F200_150901.nc
MGITM_LS000_F200_150901.dat
For Solar Mean (F10.7 = 130):
MGITM_LS270_F130_150519.nc
MGITM_LS270_F130_150519.dat
MGITM_LS180_F130_150615.nc
MGITM_LS180_F130_150615.dat
MGITM_LS090_F130_150811.nc
MGITM_LS090_F130_150811.dat
MGITM_LS000_F130_150901.nc
MGITM_LS000_F130_150901.dat
For Solar Min (F10.7 = 70):
MGITM_LS270_F070_150615.nc
MGITM_LS270_F070_150615.dat
MGITM_LS180_F070_150615.nc
MGITM_LS180_F070_150615.dat
MGITM_LS090_F070_150812.nc
MGITM_LS090_F070_150812.dat
MGITM_LS000_F070_150901.nc
MGITM_LS000_F070_150901.dat
M-AMPS
For Solar Max (F10.7 = 200):
MAMPS_LS270_F200_081216.nc
MAMPS_LS270_F200_081216.dat
MAMPS_LS180_F200_081216.nc
MAMPS_LS180_F200_081216.dat
MAMPS_LS090_F200_081216.nc
MAMPS_LS090_F200_081216.dat
MAMPS_LS000_F200_081216.nc
MAMPS_LS000_F200_081216.dat
For Solar Mean (F10.7 = 130):
MAMPS_LS270_F130_081216.nc
MAMPS_LS270_F130_081216.dat
MAMPS_LS180_F130_081216.nc
MAMPS_LS180_F130_081216.dat
MAMPS_LS090_F130_081216.nc
MAMPS_LS090_F130_081216.dat
MAMPS_LS000_F130_081216.nc
MAMPS_LS000_F130_081216.dat
For Solar Min (F10.7 = 70):
MAMPS_LS270_F070_081216.nc
MAMPS_LS270_F070_081216.dat
MAMPS_LS180_F070_081216.nc
MAMPS_LS180_F070_081216.dat
MAMPS_LS090_F070_081216.nc
MAMPS_LS090_F070_081216.dat
MAMPS_LS000_F070_081216.nc
MAMPS_LS000_F070_081216.dat
MHD
For Solar Max:
Autumnal Equinox:
3d__ful_4_n00060000_AEQNmax-SSLONG0.dat
3d__ful_4_n00060000_AEQNmax-SSLONG180.dat
3d__ful_4_n00060000_AEQNmax-SSLONG270.dat
3d__ful_4_n00060000_AEQNmax-SSLONG0noend.dat
3d__ful_4_n00060000_AEQNmax-SSLONG180noend.dat
Perihelion:
3d__ful_4_n00060000_PERmax-SSLONG0.dat
3d__ful_4_n00060000_PERmax-SSLONG180.dat
3d__ful_4_n00060000_PERmax-SSLONG270.dat
Aphelion:
3d__ful_4_n00060000_APHmax-SSLONG0.dat
3d__ful_4_n00060000_APHmax-SSLONG180.dat
3d__ful_4_n00060000_APHmax-SSLONG270.dat
For Solar Min:
Autumnal Equinox:
3d__ful_4_n00060000_AEQNmin-SSLONG0.dat
3d__ful_4_n00060000_AEQNmin-SSLONG180.dat
3d__ful_4_n00060000_AEQNmin-SSLONG270.dat
Perihelion:
3d__ful_4_n00060000_PERmin-SSLONG0.dat
3d__ful_4_n00060000_PERmin-SSLONG180.dat
3d__ful_4_n00060000_PERmin-SSLONG270.dat
Aphelion:
3d__ful_4_n00060000_APHmin-SSLONG0.dat
3d__ful_4_n00060000_APHmin-SSLONG180.dat
3d__ful_4_n00060000_APHmin-SSLONG270.dat
Deep Dip 3D:
DeepDip_3D_orbit_1085_mso_0422.dat
For Solar Storms:
ICME_03082015_non-resistivity_int.dat
input_ICME_Janet_Case2_smax_BcDawn_nsw1.0fixedBc_largeBox_30000.dat
input_P_dyn_max.dat