propagation_matrixAddPredefined

Workspace.propagation_matrixAddPredefined(self, propagation_matrix: pyarts.arts.PropmatVector | None = None, propagation_matrix_jacobian: pyarts.arts.PropmatMatrix | None = None, absorption_predefined_model_data: pyarts.arts.PredefinedModelData | None = None, propagation_matrix_select_species: pyarts.arts.SpeciesEnum | None = None, jacobian_targets: pyarts.arts.JacobianTargets | None = None, frequency_grid: pyarts.arts.AscendingGrid | None = None, atmospheric_point: pyarts.arts.AtmPoint | None = None) None

Adds all of the predefined models in absorption_species to the propagation_matrix

Only supports temperature and wind speed derivatives

Available models:

  • O2-MPM2020: 60 GHz and 118 GHz lines only (no continua, no higher Hz line centers)

    Dmitriy S. Makarov, Mikhail Yu. Tretyakov, Philip W. Rosenkranz, JQSRT 243, 2020, Revision of the 60-GHz atmospheric oxygen absorption band models for practical use, https://doi.org/10.1016/j.jqsrt.2019.106798

  • H2O-ForeignContCKDMT350: Foreign continua. Expects H2O line center cutoff at 25 cm-1

    CKD_MTv3.50 H2O foreign continuum from the FORTRAN77 code written by Atmospheric and Environmental Research Inc. (AER), Radiation and Climate Group 131 Hartwell Avenue Lexington, MA 02421, USA http://www.rtweb.aer.com/continuum_frame.html

  • H2O-SelfContCKDMT350: Self continua. Expects H2O line center cutoff at 25 cm-1

    CKD_MTv3.50 H2O self continuum from the FORTRAN77 code written by Atmospheric and Environmental Research Inc. (AER), Radiation and Climate Group 131 Hartwell Avenue Lexington, MA 02421, USA http://www.rtweb.aer.com/continuum_frame.html

  • H2O-ForeignContCKDMT320: Foreign continua. Expects H2O line center cutoff at 25 cm-1

    CKD_MTv3.20 H2O foreign continuum from the FORTRAN77 code written by Atmospheric and Environmental Research Inc. (AER), Radiation and Climate Group 131 Hartwell Avenue Lexington, MA 02421, USA http://www.rtweb.aer.com/continuum_frame.html

  • H2O-SelfContCKDMT320: Self continua. Expects H2O line center cutoff at 25 cm-1

    CKD_MTv3.20 H2O self continuum from the FORTRAN77 code written by Atmospheric and Environmental Research Inc. (AER), Radiation and Climate Group 131 Hartwell Avenue Lexington, MA 02421, USA http://www.rtweb.aer.com/continuum_frame.html

  • H2O-SelfContCKDMT400: Self continuum for water. General reference: Mlawer et al. (2012), doi:10.1098/rsta.2011.0295

    Our code is reimplemented based on original Fortran90 code that is/was/will-be-made available via hitran.org

    Note that this model comes with the copyright statement [1].

    Note also that this model requires absorption_predefined_model_data to contain relevant data set either using absorption_predefined_model_dataAddWaterMTCKD400() or via some file reading routine.

  • H2O-ForeignContCKDMT400: Foreign continuum for water. General reference: Mlawer et al. (2012), doi:10.1098/rsta.2011.0295

    Our code is reimplemented based on original Fortran90 code that is/was/will-be-made available via hitran.org

    Note that this model comes with the copyright statement [1].

    Note also that this model requires absorption_predefined_model_data to contain relevant data set either using absorption_predefined_model_dataAddWaterMTCKD400() or via some file reading routine.

  • H2O-ForeignContStandardType: Water microwave continua

    P. W. Rosenkranz., Radio Science, 33(4), 919, 1998 and Radio Science, Vol. 34(4), 1025, 1999.

  • H2O-SelfContStandardType: Water microwave continua

    P. W. Rosenkranz., Radio Science, 33(4), 919, 1998 and Radio Science, Vol. 34(4), 1025, 1999.

  • H2O-MPM89: Microwave water absorption model

      1. Liebe, Int. J. Infrared and Millimeter Waves, 10(6), 1989, 631.

  • H2O-PWR98: Microwave water absorption model

    P. W. Rosenkranz., Radio Science, 33(4), 919, 1998 and Radio Science, Vol. 34(4), 1025, 1999.

  • H2O-PWR2021: Microwave water absorption model developed by P.W. Rosenkranz.

    Our code is reimplemented based on the Fortran code available at http://cetemps.aquila.infn.it/mwrnet/lblmrt_ns.html

  • H2O-PWR2022: Microwave water absorption model developed by P.W. Rosenkranz.

    Our code is reimplemented based on the Fortran code available at http://cetemps.aquila.infn.it/mwrnet/lblmrt_ns.html

  • CO2-CKDMT252: MT CKD absorption for CO2

    This absorption model is taken from the FORTRAN77 code of CKD_MT version 2.50 written by<br> Atmospheric and Environmental Research Inc. (AER),<br> Radiation and Climate Group<br> 131 Hartwell Avenue<br> Lexington, MA 02421, USA<br> http://www.rtweb.aer.com/continuum_frame.html

  • O2-CIAfunCKDMT100: CIA for oxygen from MT CKD

    F. Thibault, V. Menoux, R. Le Doucen, L. Rosenman, J.-M. Hartmann, Ch. Boulet,<br> Infrared collision-induced absorption by O2 near 6.4 microns for atmospheric applications: measurements and emprirical modeling,<br> Appl. Optics, 35, 5911-5917, (1996).

    This absorption model is taken from the FORTRAN77 code of CKD_MT version 1.00 written by<br> Atmospheric and Environmental Research Inc. (AER),<br> Radiation and Climate Group<br> 131 Hartwell Avenue<br> Lexington, MA 02421, USA<br> http://www.rtweb.aer.com/continuum_frame.html

  • O2-MPM89: Oxygen microwave absorption model

    Reference: H. J. Liebe and G. A. Hufford and M. G. Cotton,<br> <i>Propagation modeling of moist air and suspended water/ice particles at frequencies below 1000 GHz</i>,<br> AGARD 52nd Specialists Meeting of the Electromagnetic Wave Propagation Panel,<br> Palma de Mallorca, Spain, 1993, May 17-21

  • O2-PWR98: Oxygen microwave absorption model

    P.W. Rosenkranz, CHAP. 2 and appendix, in ATMOSPHERIC REMOTE SENSING BY MICROWAVE RADIOMETRY (M.A. Janssen, ed., 1993). H.J. Liebe et al, JQSRT V.48, PP.629-643 (1992). M.J. Schwartz, Ph.D. thesis, M.I.T. (1997). SUBMILLIMETER LINE INTENSITIES FROM HITRAN96.

  • O2-PWR2021: Oxygen microwave absorption model developed by P.W. Rosenkranz.

    Our code is reimplemented based on the Fortran code available at http://cetemps.aquila.infn.it/mwrnet/lblmrt_ns.html

  • O2-PWR2022: Oxygen microwave absorption model developed by P.W. Rosenkranz.

    Our code is reimplemented based on the Fortran code available at http://cetemps.aquila.infn.it/mwrnet/lblmrt_ns.html

  • O2-SelfContStandardType: Microwave continua term

    Reference: P. W. Rosenkranz, Chapter 2, in M. A. Janssen, <br> <I>Atmospheric Remote Sensing by Microwave Radiometry</i>,<br> John Wiley & Sons, Inc., 1993.<br> <br> Reference: H. J. Liebe and G. A. Hufford and M. G. Cotton,<br> <i>Propagation modeling of moist air and suspended water/ice particles at frequencies below 1000 GHz</i>,<br> AGARD 52nd Specialists Meeting of the Electromagnetic Wave Propagation Panel,<br> Palma de Mallorca, Spain, 1993, May 17-21

  • O2-TRE05: Oxygen microwave absorption model

    References: H. J. Liebe and G. A. Hufford and M. G. Cotton,<br> <i>Propagation modeling of moist air and suspended water/ice particles at frequencies below 1000 GHz</i>,<br> AGARD 52nd Specialists Meeting of the Electromagnetic Wave Propagation Panel,<br> Palma de Mallorca, Spain, 1993, May 17-21

    M.Yu. Tretyakov, M.A. Koshelev, V.V. Dorovskikh, D.S. Makarov, P.W. Rosenkranz; 60-GHz oxygen band: precise broadening and central frequencies of fine-structure lines, absolute absorption profile at atmospheric pressure, and revision of mixing coefficients doi:10.1016/j.jms.2004.11.011

  • O2-v0v0CKDMT100: MT CKD

    CKD_MT 1.00 implementation of oxygen collision induced fundamental model of O2 continuum formulated by Mate et al. over the spectral region 7550-8486 cm-1: B. Mate, C. Lugez, G.T. Fraser, W.J. Lafferty, “Absolute Intensities for the O2 1.27 micron continuum absorption”, J. Geophys. Res., 104, 30,585-30,590, 1999.

    Also, refer to the paper “Observed Atmospheric Collision Induced Absorption in Near Infrared Oxygen Bands”, Mlawer, Clough, Brown, Stephen, Landry, Goldman, & Murcray, Journal of Geophysical Research (1997).

    This absorption model is taken from the FORTRAN77 code of CKD_MT version 1.00 written by<br> Atmospheric and Environmental Research Inc. (AER),<br> Radiation and Climate Group<br> 131 Hartwell Avenue<br> Lexington, MA 02421, USA<br> http://www.rtweb.aer.com/continuum_frame.html<br> <br>

  • O2-v1v0CKDMT100: MT CKD

    Mlawer, Clough, Brown, Stephen, Landry, Goldman, Murcray,<br> Observed Atmospheric Collision Induced Absorption in Near Infrared Oxygen Bands,<br> J. Geophys. Res., 103, D4, 3859-3863, 1998.

    This absorption model is taken from the FORTRAN77 code of CKD_MT version 1.00 written by<br> Atmospheric and Environmental Research Inc. (AER),<br> Radiation and Climate Group<br> 131 Hartwell Avenue<br> Lexington, MA 02421, USA<br> http://www.rtweb.aer.com/continuum_frame.html<br>

  • O2-visCKDMT252: MT CKD

    O2 continuum formulated by Greenblatt et al. over the spectral region 8797-29870 cm-1: “Absorption Coefficients of Oxygen Between 330 and 1140 nm, G.D. Green blatt, J.J. Orlando, J.B. Burkholder, and A.R. Ravishabkara, J. Geophys. Res., 95, 18577-18582, 1990.

    This absorption model is taken from the FORTRAN77 code of CKD_MT version 2.50 written by<br> Atmospheric and Environmental Research Inc. (AER),<br> Radiation and Climate Group<br> 131 Hartwell Avenue<br> Lexington, MA 02421, USA<br> http://www.rtweb.aer.com/continuum_frame.html<br>

  • N2-CIAfunCKDMT252: MT CKD

    Lafferty, W.J., A.M. Solodov,A. Weber, W.B. Olson and J._M. Hartmann,<br> Infrared collision-induced absorption by N2 near 4.3 microns for atmospheric applications: Measurements and emprirical modeling, <br> Appl. Optics, 35, 5911-5917, (1996)

    This absorption model is taken from the FORTRAN77 code of CKD_MT version 1.00 written by<br> Atmospheric and Environmental Research Inc. (AER),<br> Radiation and Climate Group<br> 131 Hartwell Avenue<br> Lexington, MA 02421, USA<br> http://www.rtweb.aer.com/continuum_frame.html

  • N2-CIArotCKDMT252: MT CKD

    Borysow, A, and L. Frommhold,<br> Collision-induced rototranslational absorption spectra of N2-N2 pairs for temperatures from 50 to 300 K,<br> The Astrophysical Journal, 311, 1043-1057, 1986.

    This absorption model is taken from the FORTRAN77 code of CKD_MT version 1.00 written by<br> Atmospheric and Environmental Research Inc. (AER),<br> Radiation and Climate Group<br> 131 Hartwell Avenue<br> Lexington, MA 02421, USA<br> http://www.rtweb.aer.com/continuum_frame.html

  • N2-SelfContStandardType: Microwave nitrogen absorption continua

    Reference: P. W. Rosenkranz, Chapter 2, in M. A. Janssen, <br> <I>Atmospheric Remote Sensing by Microwave Radiometry</i>,<br> John Wiley & Sons, Inc., 1993.

  • N2-SelfContMPM93: Microwave nitrogen absorption continua from MPM93 model

    Reference: H. J. Liebe and G. A. Hufford and M. G. Cotton,<br> <i>Propagation modeling of moist air and suspended water/ice particles at frequencies below 1000 GHz</i>,<br> AGARD 52nd Specialists Meeting of the Electromagnetic Wave Propagation Panel,<br> Palma de Mallorca, Spain, 1993, May 17-21

  • N2-SelfContPWR2021: Microwave nitrogen absorption continua developed by P.W. Rosenkranz.

    Note that this also includes O2-N2 and O2-O2 collision-induced absorption and is only applicable to Earth

    Our code is reimplemented based on the Fortran code available at http://cetemps.aquila.infn.it/mwrnet/lblmrt_ns.html

  • liquidcloud-ELL07: Water droplet absorption

    W. J. Ellison, <br> <i>Permittivity of Pure Water, at Standard Atmospheric Pressure, over the Frequency Range 0-25 THz and Temperature Range 0-100C</i>,<br> J. Phys. Chem. Ref. Data, Vol. 36, No. 1, 2007

Author(s): Richard Larsson

Parameters: