Venus -like Exoplanet Simulations Utilizing the VTGCM numerical code. S. W. Bougher (8/29/2022) ------------------------------------------------------------------------------------------------------------ List of Files and Contents: Section #1 ---------- There are 2-ascii files (*.dat), and 2-plots (*.pdf) for each of 4-simulation sets. One complete set contains both VTGCM state variables (2-D slices), and the corresponding heat balance (HTBAL) terms (1-D profiles). These 7-state variables are found in vtgcm.VEN*.ZP.FLDS7.dat and *.pdf files; the 5-heat balance terms are found in vtgcm.HTBAL.VEN*.dat and *.pdf files. These state variables are as follows: (1) Height (km) (2) Neutral Temperature (K) (3) Atomic O mixing ratio (4) Atomic CO mixing ratio (5) Atomic CO2 mixing ratio (6) Atomic O2 mixing ratio (7) Zonal winds (m/sec) These heat balances ternms are as follows: (1) EUV heating rate (k/day) (2) Near-IR heating rate (K/day) (3) CO2 15-micron cooling rate (K/day) (4) Molecular thermal conduction rate (K/day) (5) Total dynamical heating/cooling rate (K/day) The Domain and Grid structure for these 2-D tables is as follows: all at LAT = 2.5N (1) Fast variable: Longitude (0.0 to 180 to 360, by 5.0 degree intervals) Local time (LT = 0.0 to 12.0 to 24.0, by 0.33 hour intervals) (2) Slow variable: Log pressure (Zp): -16.0 to 18.0, by 0.5 intervals The Grid structure for these 1-D profiles is as follows: all at LT = 12.0, and LAT = 2.5N (1) Only variable: Altitude (km): 70.0 to 200.0, by 2.0 km intervals ----------------------------------------------------------------------------------------------------------- Simulation descriptions and associated files: ------------------------------------------- 1. Simulation #1: VTGCM case VEN1: Baseline modern solar mninimum conditions (like that for late Venus Express mission) a. State variables (2-D): *.dat and *.pdf b. Heat balances (1-D): *.dat and *.pdf 2. Simulation #2: case VEN2: Baseline conditions (now using GJ436 solar fluxes, at D = 0.72 AU) a. State variables (2-D): *.dat and *.pdf b. Heat balances (1-D): *.dat and *.pdf 3. Simulation #3: case VEN3: Baseline conditions (now using GJ436 solar fluxes, at D = 0.38 AU) a. State variables (2-D): *.dat and *.pdf b. Heat balances (1-D): *.dat and *.pdf 4. Simulation #4: case VEN4: Baseline conditions (now using GJ436 solar fluxes, at D = 0.175 AU) a. State variables (2-D): *.dat and *.pdf b. Heat balances (1-D): *.dat and *.pdf Section #2 ---------- There are 2-ascii files (*.dat), only, for each of 4-simulation sets. One set contains both 7-state variables (2-D slices), and the other corresponding 5-heat balances (HTBAL) terms. Some HTBAL come from 2-D slices from which 1-D profiles can be extracted; others come straight from 1-D profiles (at LT = 12 and LAT = 2.5N). Same 2-D and 1-D grid structure is used as above. 5. Simulation #5: case VEN4(0p7): Baseline conditions (now using GJ436 solar fluxes, at D = 0.175 AU, near-IR scaled by 0.7) a. State variables (2-D): *.dat b. Heat balances (2-D): *.dat 6. Simulation #6: case VEN4(1p3): Baseline conditions (now using GJ436 solar fluxes, at D = 0.175 AU, near-IR scaled by 1.3) a. State variables (2-D): *.dat b. Heat balances (2-D): *.dat 7. Simulation #7: case VEN4(2XIR): Baseline conditions (now using GJ436 solar fluxes, at D = 0.175 AU, near-IR scaled by 2.0) a. State variables (2-D): *.dat b. Heat balances (1-D): *.dat 8. Simulation #8: case VEN4(4XIR): Baseline conditions (now using GJ436 solar fluxes, at D = 0.175 AU, near-IR scaled by 4.0) a. State variables (2-D): *.dat b. Heat balances (1-D): *.dat Repository Files and Connections: ------------------------ * vtgcm.VEN1.ZP.FLDS7.dat (VEN1: 2-D slices of state variables) vtgcm.VEN1.ZP.FLDS7.pdf * vtgcm.VEN2.ZP.FLDS7.dat (VEN2: 2-D slices of state variables) vtgcm.VEN2.ZP.FLDS7.pdf * vtgcm.VEN3.ZP.FLDS7.dat (VEN3: 2-D slices of state variables) vtgcm.VEN3.ZP.FLDS7.pdf * vtgcm.VEN4.ZP.FLDS7.dat (VEN4: 2-D slices of state variables) vtgcm.VEN4.ZP.FLDS7.pdf * vtgcm.HTBAL.VEN1.dat (VEN1: 1-D Profiles of heat balances) vtgcm.HTBAL.VEN1.pdf * vtgcm.HTBAL.VEN2.dat (VEN2: 1-D Profiles of heat balances) vtgcm.HTBAL.VEN2.pdf * vtgcm.HTBAL.VEN3.dat (VEN3: 1-D Profiles of heat balances) vtgcm.HTBAL.VEN3.pdf * vtgcm.HTBAL.VEN4.dat (VEN4: 1-D Profiles of heat balances) vtgcm.HTBAL.VEN4.pdf * vtgcm.VEN4.QNIR0p7.FLDS7.dat (VEN4(0p7): 2-D slices of state variables) * vtgcm.VEN4.QNIR1p3.FLDS7.dat (VEN4(1p3): 2-D slices of state variables) * vtgcm.VEN4.2XIR.FLDS7.dat (VEN4(2XIR): 2-D slices of state variables) * vtgcm.VEN4.4XIR.FLDS7.dat (VEN4(4XIR): 2-D slices of state variables) * vtgcm.VEN4.QNIR0p7.Flds5.HTBAL.dat (VEN4(0p7): 2-D slices of heat balances) * vtgcm.VEN4.QNIR1p3.Flds5.HTBAL.dat (VEN4(1p3): 2-D slices of heat balances) * vtgcm.VEN4.2XIR.HTBAL1D.100SOLb.dat (VEN4(2XIR): 1-D slices of heat balances) * vtgcm.VEN4.4XIR.HTBAL1D.100SOLb.dat (VEN4(4XIR): 1-D slices of heat balances) -----------------------------------------------------------------------------------------------------------------