Radiative Transfer for Steam Atmosphere

Temperature profile
- Convective atmosphere is assumed.
- adiabat profile: IAPWS-95 (IAPWS, 2009)
Opacity
- absorption cross section
  - data source
    - HITEMP2010 (Rothman et al., 2010)
    - MT_CKD 2.5 (Mlawer et al., 2012)
  - calculation method
    - line shape: voigt line shape (Kuntz 1997, Ruyten 2004)
    - temperature and pressure dependence of line profile: Rothman et al., 1998 (but, line shift is depending on temperature(similar to LBLRTM))
- scattering cross section
  - Goldblatt et al., 2013
- calculation of opacity
  - We prepare absorption cross section table. Required absorption cross section is calculated by cubic spline interpolation.
Radiative transfer
- Two stream approximation (Toon et al., 1989)
- wavenumber range: 0.01 - 20000.0 [cm-1]
- wavenumber resolution: 0.01 [cm-1]

Brightness Temperature: 2.7[bar], 1000[K] IMG
Optical Depth of all Atmosphere ( vertical axis means log(optical depth) )
- 0.01M (2.7bar): 600K, 800K,1000K,1500K,1700K,2000K
- 0.1M (27bar): 600K, 800K,1000K,1500K,1700K,2000K
- 1M (270bar): 250K,300K,400K,600K, 800K,1000K,1500K,1700K,2000K
- 5M (1350bar): 800K,1000K,1500K,1700K,2000K
Outgoing Flux from Top of Atmosphere
- 0.01M (2.7bar): 600K, 800K,1000K,1500K,1700K,2000K
- 0.1M (27bar): 600K, 800K,1000K,1500K,1700K,2000K
- 1M (270bar): 250K,300K,400K,600K, 800K,1000K,1500K,1700K,2000K
- 5M (1350bar): 800K,1000K,1500K,1700K,2000K
Brightness Temperature
- 0.01M (2.7bar): 600K, 800K,1000K,1500K,1700K,2000K
- 0.1M (27bar): 600K, 800K,1000K,1500K,1700K,2000K
- 1M (270bar): 250K,300K,400K,600K, 800K,1000K,1500K,1700K,2000K
- 5M (1350bar): 800K,1000K,1500K,1700K,2000K

Vertical Profile: Temperature, Upward Flux, Downward Flux
- 0.01M (2.7bar): 600K, 800K,1000K,1500K,1700K,2000K
- 0.1M (27bar): 600K, 800K,1000K,1500K,1700K,2000K
- 1M (270bar): 250K,300K,400K,600K, 800K,1000K,1500K,1700K,2000K
- 5M (1350bar): 800K,1000K,1500K,1700K,2000K
Optical Depth of all Atmosphere
- 0.01M (2.7bar): 600K, 800K,1000K,1500K,1700K,2000K
- 0.1M (27bar): 600K, 800K,1000K,1500K,1700K,2000K
- 1M (270bar): 250K,300K,400K,600K, 800K,1000K,1500K,1700K,2000K
- 5M (1350bar): 800K,1000K,1500K,1700K,2000K
Outgoing Flux from Top of Atmosphere
- 0.01M (2.7bar): 600K, 800K,1000K,1500K,1700K,2000K
- 0.1M (27bar): 600K, 800K,1000K,1500K,1700K,2000K
- 1M (270bar): 250K,300K,400K,600K, 800K,1000K,1500K,1700K,2000K
- 5M (1350bar): 800K,1000K,1500K,1700K,2000K
Brightness Temperature
- 0.01M (2.7bar): 600K, 800K,1000K,1500K,1700K,2000K
- 0.1M (27bar): 600K, 800K,1000K,1500K,1700K,2000K
- 1M (270bar): 250K,300K,400K,600K, 800K,1000K,1500K,1700K,2000K
- 5M (1350bar): 800K,1000K,1500K,1700K,2000K

Goldblatt et al., 2013, Nature Geoscience, vol.6, 661--667: Low simulated radiation limit for runaway greenhouse climates.
Kuntz 1997, JQSRT, vol.57, No.6, 819--824: A New Implementation of the Humlicek Algorithm for the Calculation of the Voigt Profile Function.
Mlawer et al., 2012, Philosophical Transactions of the Royal Society A, vol.370, 2520--2556: Development and recent evaluation of the MT_CKD model of continuum absorption.
Rothman et al., 1998, JQSRT, vol.60, No.5, 665--710: The HITRAN Molecular Spectroscopic Database and HAWKS (HITRAN Atmospheric Workstation): 1996 edition.
Rothman et al., 2010, JQSRT, vol.111, 2139--2150: HITEMP, the high-temperature molecular spectroscopic database.
Ryuten 2004, JQSRT, vol.86, 231--233: Comment on "A new implementation of the Humlicek Algorithm for the calculation of the Voigt Profile Function" by M. Kuntz [JQSRT 57(6) (1997) 819-824].
The International Association for the Properties of Water and Steam, 2009: Revised Release on the IAPWS Formulation 1995 for the Thermodynamic Properties of Ordinary Water Substance for General and Scientific Use

We use MT_CKD continuum model (Mlawer et al., 2012) for calculating molecular continuum absorption.