Details of Job 13
Summary
Date of Submission: May 1, 2013, 4:57 p.m.
Status: Completed
MarTIM input file: Download
Output from run
View list of output files from MarTIM Run
Download archive (tar.gz) of all files from MarTIM Run (430.2 KB)
Submission Parameters
Logic Switches for MarTIM
SW5: True
SW6: True
SW8: True
Seasonal and global simulation options
Solar Activity: SMIN F10.7=67.2
EUV Efficiency: 23.0
Solar longitude: 180.0
Days to run: 5
Eddy Diffusion Coefficient: 1500.0m2s-1
Switches to control the creation of output files from MarTIM
Output at the end of each simulation day: True
Wind files at the end of each simulation day: True
Volume mixing ratio files: True
Mass mixing ratio files: False
Momementum term files: False
Energy term files: False
Settings for when SW5 is true
Dust setting: SMIN plus Mars year 24 annually averaged dust (a typical Martian year in terms of atmospheric dust content as observed by Mars Global Surveyor during Mars year 24-25).
VMR Choice: False
TransMars Kinetic Configuration Options
Region for the kinetic code to simulate
Longitude range for kinetic code to simulate: 45.0 °
Photoabsorption subroutine output options
- Solar spectrum wavelength (nm), energies (eV) and photon fluxes (photons.cm⁻².s⁻¹). False
- Neutral species photoabsorption cross sections (cm⁻²) from the input files and interpolated onto the solar flux grid. False
- Ionization potentials (thresholds) (eV). False
- Normalized branching ratios and the number of difference photoionization excited states the different photoions can be photoionized to. False
- Neutral atmosphere - altitude (km), temperature (K) and neutral density (cm⁻³). False
- Photoelectron and individual photoion production rates (cm⁻³.s⁻¹) (summed over all solar flux energies) as a function of altitude (km) and subdivided into the contribution from individual excited ion states. False
- Photoelectron production rate (cm⁻³.s⁻¹.eV⁻¹) as a function of altitude and energy (eV) subdivided into the contribution from individual neutral atmosphere components. False
- Photoelectron production rate (cm⁻³.s⁻¹.eV⁻¹) summed over all neutrals as a function of altitude (km) and energy (eV). False
- Photoelectron and total photoion production rates (cm⁻³.s⁻¹.eV⁻¹) (summed over all solar flux energies) as a function of altitude and neutral specie (summation over all excited ion state per neutral specie). False
Boltzmann transport subroutine output options
- Upper boundary (user inputted) downward and upward precipitated electron flux (cm⁻².s⁻¹.eV⁻¹) as a function of energy (eV). False
- Total energy deposition per atmospheric layer (eV.cm⁻².s⁻¹). False
- Total inelastic collision cross-sections (cm⁻²) as a function of energy (eV) and subdivided by neutral specie. False
- Electron density (cm⁻³) as a function of altitude (km). False
- Elastic and inelastic collision cross-sections (cm⁻²) subdivided into individual collision states as a function of energy (eV). False
- Final production rates (total, primary, secondary, ions, electrons, neutral totals) (cm⁻³.s⁻¹) as a function of altitude (km). False
- Hemispheric energy flux (eV.cm⁻².s⁻¹) and particle flux (cm⁻².s⁻¹) as a function of altitude (km). False
- Energy deposited in the heating of ambient electrons (eV.cm⁻³s⁻¹) as a function of altitude (km). False
- Energy deposited in neutrals (eV.cm⁻³s⁻¹) as a function of altitude (km). False
- Excitation rates for the inelastic collision states of each neutral species (cm⁻³s⁻¹) as a function of altitude (km). False
- Precipitated electron energy and photoelectron energy integrated over energy and altitude (eV.cm⁻²s). False
- Electron-electron interaction loss function at each altitude (km) and energy (eV) grid point. False
- Excited ion production rates of each neutral species (cm⁻³s⁻¹) of each neutral species as a function of altitude (km). False
- Hemispheric upward and downward energy flux (eV.cm⁻².s⁻¹). False