ARTS  2.2.66
continua.h File Reference

This header file contains all the declarations of the implemented continua and full absorption (lines+continuum) models. More...

#include "matpackI.h"
#include "mystring.h"
#include "messages.h"
Include dependency graph for continua.h:
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Go to the source code of this file.

Functions

void xsec_continuum_tag (MatrixView xsec, const String &name, ConstVectorView parameters, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView abs_n2, ConstVectorView abs_h2o, ConstVectorView abs_o2, ConstVectorView vmr, const Verbosity &verbosity)
 Calculates model absorption for one continuum or full model tag. More...
 
void check_continuum_model (const String &name)
 An auxiliary functions that checks if a given continuum model is listed in species_data.cc. More...
 
void MPM87H2OAbsModel (MatrixView xsec, const Numeric CC, const Numeric CL, const Numeric CW, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView vmr, const Verbosity &verbosity)
 MPM87H2OAbsModel. More...
 
void MPM89H2OAbsModel (MatrixView xsec, const Numeric CCin, const Numeric CLin, const Numeric CWin, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView vmr, const Verbosity &verbosity)
 MPM89H2OAbsModel. More...
 
void MPM93H2OAbsModel (MatrixView xsec, const Numeric CCin, const Numeric CLin, const Numeric CWin, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView vmr, const Verbosity &verbosity)
 MPM93H2OAbsModel. More...
 
void PWR98H2OAbsModel (MatrixView xsec, const Numeric CCin, const Numeric CLin, const Numeric CWin, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView vmr, const Verbosity &verbosity)
 PWR98H2OAbsModel. More...
 
void CP98H2OAbsModel (MatrixView xsec, const Numeric CCin, const Numeric CLin, const Numeric CWin, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView vmr, const Verbosity &verbosity)
 CP98H2OAbsModel. More...
 
void Pardo_ATM_H2O_ForeignContinuum (MatrixView xsec, const Numeric Cin, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView vmr, const Verbosity &verbosity)
 Pardo_ATM_H2O_ForeignContinuum. More...
 
void Standard_H2O_self_continuum (MatrixView xsec, const Numeric C, const Numeric x, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView vmr, const Verbosity &verbosity)
 Standard_H2O_self_continuum. More...
 
void Standard_H2O_foreign_continuum (MatrixView xsec, const Numeric C, const Numeric x, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView vmr, const Verbosity &verbosity)
 Standard_H2O_foreign_continuum. More...
 
void MaTipping_H2O_foreign_continuum (MatrixView xsec, const Numeric C, const Numeric x, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView vmr, const Verbosity &verbosity)
 MaTipping_H2O_foreign_continuum. More...
 
void MPM93_H2O_continuum (MatrixView xsec, const Numeric fcenter, const Numeric b1, const Numeric b2, const Numeric b3, const Numeric b4, const Numeric b5, const Numeric b6, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView vmr, const Verbosity &verbosity)
 MPM93 H2O pseudo continuum line parameters: More...
 
void CKD_222_self_h2o (MatrixView xsec, const Numeric Cin, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView vmr, const Verbosity &verbosity)
 CKD version 2.2.2 H2O self continuum absorption model. More...
 
void CKD_222_foreign_h2o (MatrixView xsec, const Numeric Cin, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView vmr, const Verbosity &verbosity)
 CKD version 2.2.2 H2O foreign continuum absorption model. More...
 
void CKD_242_self_h2o (MatrixView xsec, const Numeric Cin, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView vmr, const Verbosity &verbosity)
 CKD version 2.4.2 H2O self continuum absorption model. More...
 
void CKD24_H20 (MatrixView xsec, int isf, const Numeric Cin, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView vmr, ConstVectorView abs_n2, const Verbosity &verbosity)
 CKD version 2.4 H2O continuum absorption model. More...
 
void CKD_242_foreign_h2o (MatrixView xsec, const Numeric Cin, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView vmr, const Verbosity &verbosity)
 CKD version 2.4.2 H2O foreign continuum absorption model. More...
 
void CKD_mt_100_self_h2o (MatrixView xsec, const Numeric Cin, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView vmr, const Verbosity &verbosity)
 CKD version MT 1.00 H2O self continuum absorption model. More...
 
void CKD_mt_100_foreign_h2o (MatrixView xsec, const Numeric Cin, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView vmr, const Verbosity &verbosity)
 CKD version MT 1.00 H2O foreign continuum absorption model. More...
 
void CKD_mt_250_self_h2o (MatrixView xsec, const Numeric Cin, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView vmr, const Verbosity &verbosity)
 CKD version MT 2.50 H2O self continuum absorption model. More...
 
void CKD_mt_250_foreign_h2o (MatrixView xsec, const Numeric Cin, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView vmr, const Verbosity &verbosity)
 CKD version MT 2.50 H2O foreign continuum absorption model. More...
 
void MPM85O2AbsModel (MatrixView xsec, const Numeric CC, const Numeric CL, const Numeric CW, const Numeric CO, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView abs_h2o, ConstVectorView vmr, const Verbosity &verbosity)
 MPM85O2AbsModel. More...
 
void MPM87O2AbsModel (MatrixView xsec, const Numeric CC, const Numeric CL, const Numeric CW, const Numeric CO, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView abs_h2o, ConstVectorView vmr, const Verbosity &verbosity)
 MPM87O2AbsModel. More...
 
void MPM89O2AbsModel (MatrixView xsec, const Numeric CC, const Numeric CL, const Numeric CW, const Numeric CO, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView abs_h2o, ConstVectorView vmr, const Verbosity &verbosity)
 MPM89O2AbsModel. More...
 
void MPM92O2AbsModel (MatrixView xsec, const Numeric CC, const Numeric CL, const Numeric CW, const Numeric CO, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView abs_h2o, ConstVectorView vmr)
 
void MPM93O2AbsModel (MatrixView xsec, const Numeric CC, const Numeric CL, const Numeric CW, const Numeric CO, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView abs_h2o, ConstVectorView vmr, const Verbosity &verbosity)
 MPM93O2AbsModel. More...
 
void TRE05O2AbsModel (MatrixView xsec, const Numeric CC, const Numeric CL, const Numeric CW, const Numeric CO, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView abs_h2o, ConstVectorView vmr, const Verbosity &verbosity)
 TRE05O2AbsModel. More...
 
void PWR93O2AbsModel (MatrixView xsec, const Numeric CC, const Numeric CL, const Numeric CW, const Numeric CO, const String &model, const String &version, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView abs_h2o, ConstVectorView vmr, const Verbosity &verbosity)
 Oxygen complex at 60 GHz plus mm O2 lines plus O2 continuum. More...
 
void MPM93_O2_continuum (MatrixView xsec, const Numeric S0in, const Numeric G0in, const Numeric XSOin, const Numeric XG0in, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView abs_h2o, ConstVectorView vmr, const Verbosity &verbosity)
 MPM93 O2 continuum: More...
 
void Rosenkranz_O2_continuum (MatrixView xsec, const Numeric S0in, const Numeric G0in, const Numeric XSOin, const Numeric XG0in, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView abs_h2o, ConstVectorView vmr, const Verbosity &verbosity)
 3) O2-air More...
 
void CKD_mt_CIAfun_o2 (MatrixView xsec, const Numeric Cin, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView vmr, const Verbosity &verbosity)
 CKD version MT 1.00 O2-O2 collision induced absorption (fundamental band) More...
 
void CKD_mt_v0v0_o2 (MatrixView xsec, const Numeric Cin, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView vmr, ConstVectorView abs_n2, const Verbosity &verbosity)
 CKD version MT 1.00 O2 v0<-v0 band absorption. More...
 
void CKD_mt_v1v0_o2 (MatrixView xsec, const Numeric Cin, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView vmr, const Verbosity &verbosity)
 CKD version MT 1.00 O2 v1<-v0 band absorption. More...
 
void CKD_mt_250_o2_vis (MatrixView xsec, const Numeric Cin, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView vmr, const Verbosity &verbosity)
 CKD version MT 2.50 O2. More...
 
void CKD_mt_CIArot_n2 (MatrixView xsec, const Numeric Cin, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView vmr, const Verbosity &verbosity)
 CKD version MT 1.00 N2-N2 collision induced absorption (rotational band) More...
 
void CKD_mt_CIAfun_n2 (MatrixView xsec, const Numeric Cin, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView vmr, const Verbosity &verbosity)
 CKD version MT 1.00 N2-N2 collision induced absorption (fundamental band) More...
 
void CKD_mt_250_CIArot_n2 (MatrixView xsec, const Numeric Cin, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView vmr, ConstVectorView abs_h2o, ConstVectorView abs_o2, const Verbosity &verbosity)
 CKD version MT 2.50 N2-N2 collision induced absorption (rotational band) More...
 
void CKD_mt_250_CIAfun_n2 (MatrixView xsec, const Numeric Cin, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView vmr, ConstVectorView abs_h2o, ConstVectorView abs_o2, const Verbosity &verbosity)
 CKD version MT 2.50 N2-N2 collision induced absorption (fundamental band) More...
 
void BF86_CIA_N2 (MatrixView xsec, const Numeric Cin, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView vmr, const Verbosity &verbosity)
 Borysow-Frommhold 1986 N2-N2 CIA absorption model;. More...
 
void MPM93_N2_continuum (MatrixView xsec, const Numeric Cin, const Numeric Gin, const Numeric xTin, const Numeric xfin, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView abs_h2o, ConstVectorView vmr, const Verbosity &verbosity)
 MPM93 N2 continuum. More...
 
void Rosenkranz_N2_self_continuum (MatrixView xsec, const Numeric Cin, const Numeric xin, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView vmr, const Verbosity &verbosity)
 Rosenkranz_N2_self_continuum. More...
 
void Standard_N2_self_continuum (MatrixView xsec, const Numeric Cin, const Numeric xfin, const Numeric xtin, const Numeric xpin, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView vmr, const Verbosity &verbosity)
 4) N2-N2 More...
 
void Pardo_ATM_N2_dry_continuum (MatrixView xsec, const Numeric Cin, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView vmr, ConstVectorView abs_h2o, const Verbosity &verbosity)
 Pardo_ATM_N2_dry_continuum. More...
 
void CKD_241_co2 (MatrixView xsec, const Numeric Cin, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView vmr, const Verbosity &verbosity)
 CKD version 2.4.1 CO2 continuum absorption model. More...
 
void CKD_mt_co2 (MatrixView xsec, const Numeric Cin, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView vmr, const Verbosity &verbosity)
 CKD version MT 1.00 CO2 continuum absorption model. More...
 
void CKD_250_mt_co2 (MatrixView xsec, const Numeric Cin, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView vmr, const Verbosity &verbosity)
 
void Rosenkranz_CO2_self_continuum (MatrixView xsec, const Numeric C, const Numeric x, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView vmr, const Verbosity &verbosity)
 Rosenkranz_CO2_self_continuum. More...
 
void Rosenkranz_CO2_foreign_continuum (MatrixView xsec, const Numeric C, const Numeric x, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView abs_n2, ConstVectorView vmr, const Verbosity &verbosity)
 Rosenkranz_CO2_foreign_continuum. More...
 
void MPM93WaterDropletAbs (MatrixView xsec, const Numeric CC, const Numeric CG, const Numeric CE, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView vmr, const Verbosity &verbosity)
 MPM93WaterDropletAbs. More...
 
void MPM93IceCrystalAbs (MatrixView xsec, const Numeric CC, const Numeric CA, const Numeric CB, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView vmr, const Verbosity &verbosity)
 MPM93IceCrystalAbs. More...
 
void MPM93RainExt (MatrixView xsec, const Numeric CE, const Numeric CA, const Numeric CB, const String &model, ConstVectorView f_grid, ConstVectorView abs_p, ConstVectorView abs_t, ConstVectorView vmr, const Verbosity &verbosity)
 MPM93RainExt. More...
 
Numeric MPMLineShapeFunction (const Numeric gamma, const Numeric fl, const Numeric f)
 
Numeric MPMLineShapeO2Function (const Numeric gamma, const Numeric fl, const Numeric f, const Numeric delta)
 
Numeric WVSatPressureLiquidWater (const Numeric t)
 
Numeric WVSatPressureIce (const Numeric t)
 

Detailed Description

This header file contains all the declarations of the implemented continua and full absorption (lines+continuum) models.

This is the file from arts-1-0, back-ported to arts-1-1.

Author
Thomas Kuhn
Date
2001-11-05

Definition in file continua.h.

Function Documentation

◆ BF86_CIA_N2()

void BF86_CIA_N2 ( MatrixView  pxsec,
const Numeric  Cin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  vmr,
const Verbosity verbosity 
)

Borysow-Frommhold 1986 N2-N2 CIA absorption model;.

see publication A. Borysow and L. Frommhold, The Astrophysical Journal, vol.311, pp.1043-1057, 1986 see http://adsabs.harvard.edu/article_service.html for a scanned version of the paper

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of N2-CIA according to BF-86 model [1/m]
Cinstrength scaling factor [1]
modelallows user defined input parameter set (Cin)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure grid [Pa]
abs_tpredefined temperature grid [K]
vmrN2 volume mixing ratio profile [1]
Note
this "crude" version of the N2-N2 model is a f2c conversion of the N2-N2 F77 code of Prof. A. Borysow. The original code can be downloaded at F77 code.
Remarks
Reference: A. Borysow and L. Frommhold, The Astrophysical Journal, vol.311, pp.1043-1057, 1986 see for a scanned version of the paper.
Author
Thomas Kuhn
Date
2002-03-05

Definition at line 14215 of file continua.cc.

References CREATE_OUT3, n2n2tks_(), ConstMatrixView::ncols(), ConstVectorView::nelem(), and ConstMatrixView::nrows().

Referenced by xsec_continuum_tag().

◆ check_continuum_model()

void check_continuum_model ( const String name)

An auxiliary functions that checks if a given continuum model is listed in species_data.cc.

This is just in order to verify that this really represents a valid continuum model.

The given name should be something like 'H2O-ContStandardSelf'. The function simply checks if there is a species H2O with an isotopologue ContStandardSelf.

For user-friendliness, the function also compiles a list of allowed continuum models and gives this as an error message if the model is not found.

The function has no return value, since, if the name does not match a valid model an error is thrown anyway.

Parameters
nameThe name of the continuum model to check.
Exceptions
runtime_errorThe model does not exist.
Author
Stefan Buehler
Date
2001-03-12

Definition at line 20236 of file continua.cc.

References global_data::species_data.

Referenced by abs_cont_descriptionAppend().

◆ CKD24_H20()

void CKD24_H20 ( MatrixView  pxsec,
int  isf,
const Numeric  Cin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  vmr,
ConstVectorView  abs_n2,
const Verbosity verbosity 
)

CKD version 2.4 H2O continuum absorption model.

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of H2O continuum according to CKD2.4 [1/m]
isf=0 self continuum, =1 foreign continuum
Cinstrength scaling factor [1]
modelallows user defined input parameter set (Cin)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure grid [Pa]
abs_tpredefined temperature grid [K]
vmrH2O volume mixing ratio profile [1]
abs_n2N2 volume mixing ratio profile [1]
Note
this "crude" version of the CKD2.4 model is a f2c conversion of the F77 code taken out of MonoRTM RT-model written by
S. BOUKABARA, S.A. CLOUGH, and R. HOFFMAN
Atmospheric and Environmental Research Inc. (AER),
Radiation and Climate Group
131 Hartwell Avenue
Lexington, MA 02421
USA
E-mail: sbouk.nosp@m.aba@.nosp@m.aer.c.nosp@m.om, cloug.nosp@m.h@ae.nosp@m.r.com
Remarks
Reference: A. Borysow and L. Frommhold, The Astrophysical Journal, vol.311, pp.1043-1057, 1986 see for a scanned version of the paper.
Author
Thomas Kuhn
Date
2002-03-06

Definition at line 11206 of file continua.cc.

References artsckd_(), CREATE_OUT3, ConstMatrixView::ncols(), ConstVectorView::nelem(), and ConstMatrixView::nrows().

Referenced by xsec_continuum_tag().

◆ CKD_222_foreign_h2o()

void CKD_222_foreign_h2o ( MatrixView  pxsec,
const Numeric  Cin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  vmr,
const Verbosity verbosity 
)

CKD version 2.2.2 H2O foreign continuum absorption model.

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of H2O foreign continuum according to CKDv.2.2.2 [1/m]
Cinstrength scaling factor [1]
modelallows user defined input parameter set (Cin)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure grid [Pa]
abs_tpredefined temperature grid [K]
vmrH2O volume mixing ratio profile [1]
Note
This absorption model is taken from the FORTRAN77 code of CKD version 2.2.2 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
Author
Thomas Kuhn
Date
2002-28-08

Definition at line 6988 of file continua.cc.

References addF77fields, CREATE_OUT3, FH2O_ckd_0, FH2O_ckd_0_dv, FH2O_ckd_0_npt, FH2O_ckd_0_v1, FH2O_ckd_0_v2, ConstMatrixView::ncols(), ConstVectorView::nelem(), ConstMatrixView::nrows(), RADFN_FUN(), SPEED_OF_LIGHT, and XINT_FUN().

Referenced by xsec_continuum_tag().

◆ CKD_222_self_h2o()

void CKD_222_self_h2o ( MatrixView  pxsec,
const Numeric  Cin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  vmr,
const Verbosity verbosity 
)

CKD version 2.2.2 H2O self continuum absorption model.

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of H2O self continuum according to CKD_2_2_2 [1/m]
Cinstrength scaling factor [1]
modelallows user defined input parameter set (Cin)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure grid [Pa]
abs_tpredefined temperature grid [K]
vmrH2O volume mixing ratio profile [1]
Note
This absorption model is taken from the FORTRAN77 code of CKD version 2.2.2 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
Author
Thomas Kuhn
Date
2002-31-10

Definition at line 6703 of file continua.cc.

References addF77fields, CREATE_OUT3, ConstMatrixView::ncols(), ConstVectorView::nelem(), ConstMatrixView::nrows(), RADFN_FUN(), SL260_ckd_0, SL260_ckd_0_dv, SL260_ckd_0_npt, SL260_ckd_0_v1, SL260_ckd_0_v2, SL296_ckd_0, SL296_ckd_0_dv, SL296_ckd_0_npt, SL296_ckd_0_v1, SL296_ckd_0_v2, SPEED_OF_LIGHT, and XINT_FUN().

Referenced by xsec_continuum_tag().

◆ CKD_241_co2()

void CKD_241_co2 ( MatrixView  pxsec,
const Numeric  Cin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  vmr,
const Verbosity verbosity 
)

CKD version 2.4.1 CO2 continuum absorption model.

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of CO2 continuum according to CKD_MT 1.00 [1/m]
Cinstrength scaling factor [1]
modelallows user defined input parameter set (Cin)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure grid [Pa]
abs_tpredefined temperature grid [K]
vmrCO2 volume mixing ratio profile [1]
Note
This absorption model is taken from the FORTRAN77 code of CKD version 2.4.1 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
Author
Thomas Kuhn
Date
2002-28-08

Definition at line 8696 of file continua.cc.

References addF77fields, CREATE_OUT3, FCO2_ckd_mt_100, FCO2_ckd_mt_100_dv, FCO2_ckd_mt_100_npt, FCO2_ckd_mt_100_v1, FCO2_ckd_mt_100_v2, ConstMatrixView::ncols(), ConstVectorView::nelem(), ConstMatrixView::nrows(), RADFN_FUN(), SPEED_OF_LIGHT, and XINT_FUN().

Referenced by xsec_continuum_tag().

◆ CKD_242_foreign_h2o()

void CKD_242_foreign_h2o ( MatrixView  pxsec,
const Numeric  Cin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  vmr,
const Verbosity verbosity 
)

CKD version 2.4.2 H2O foreign continuum absorption model.

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of H2O foreign continuum according to CKDv.2.4.2 [1/m]
Cinstrength scaling factor [1]
modelallows user defined input parameter set (Cin)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure grid [Pa]
abs_tpredefined temperature grid [K]
vmrH2O volume mixing ratio profile [1]
Note
This absorption model is taken from the FORTRAN77 code of CKD version 2.4.2 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
Author
Thomas Kuhn
Date
2002-28-08

Definition at line 7509 of file continua.cc.

References addF77fields, CREATE_OUT3, FH2O_ckd_0, FH2O_ckd_0_dv, FH2O_ckd_0_npt, FH2O_ckd_0_v1, FH2O_ckd_0_v2, ConstMatrixView::ncols(), ConstVectorView::nelem(), ConstMatrixView::nrows(), RADFN_FUN(), SPEED_OF_LIGHT, and XINT_FUN().

Referenced by xsec_continuum_tag().

◆ CKD_242_self_h2o()

void CKD_242_self_h2o ( MatrixView  pxsec,
const Numeric  Cin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  vmr,
const Verbosity verbosity 
)

CKD version 2.4.2 H2O self continuum absorption model.

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of H2O self continuum according to CKD_2_4_2 [1/m]
Cinstrength scaling factor [1]
modelallows user defined input parameter set (Cin)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure grid [Pa]
abs_tpredefined temperature grid [K]
vmrH2O volume mixing ratio profile [1]
Note
This absorption model is taken from the FORTRAN77 code of CKD version 2.4.2 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
Author
Thomas Kuhn
Date
2002-30-10

Definition at line 7211 of file continua.cc.

References addF77fields, CREATE_OUT3, ConstMatrixView::ncols(), ConstVectorView::nelem(), ConstMatrixView::nrows(), RADFN_FUN(), SL260_ckd_0, SL260_ckd_0_dv, SL260_ckd_0_npt, SL260_ckd_0_v1, SL260_ckd_0_v2, SL296_ckd_0, SL296_ckd_0_dv, SL296_ckd_0_npt, SL296_ckd_0_v1, SL296_ckd_0_v2, SPEED_OF_LIGHT, and XINT_FUN().

Referenced by xsec_continuum_tag().

◆ CKD_250_mt_co2()

void CKD_250_mt_co2 ( MatrixView  xsec,
const Numeric  Cin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  vmr,
const Verbosity verbosity 
)

◆ CKD_mt_100_foreign_h2o()

void CKD_mt_100_foreign_h2o ( MatrixView  pxsec,
const Numeric  Cin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  vmr,
const Verbosity verbosity 
)

CKD version MT 1.00 H2O foreign continuum absorption model.

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of H2O foreign continuum according to CKD_MT 1.00 [1/m]
Cinstrength scaling factor [1]
modelallows user defined input parameter set (Cin)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure grid [Pa]
abs_tpredefined temperature grid [K]
vmrH2O volume mixing ratio profile [1]
Note
This absorption model is taken from the FORTRAN77 code of CKD_MT version 1.00 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
Author
Thomas Kuhn
Date
2002-28-08

Definition at line 8001 of file continua.cc.

References addF77fields, CREATE_OUT3, FH2O_ckd_mt_100, FH2O_ckd_mt_100_dv, FH2O_ckd_mt_100_npt, FH2O_ckd_mt_100_v1, FH2O_ckd_mt_100_v2, ConstMatrixView::ncols(), ConstVectorView::nelem(), ConstMatrixView::nrows(), RADFN_FUN(), SPEED_OF_LIGHT, and XINT_FUN().

Referenced by xsec_continuum_tag().

◆ CKD_mt_100_self_h2o()

void CKD_mt_100_self_h2o ( MatrixView  pxsec,
const Numeric  Cin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  vmr,
const Verbosity verbosity 
)

CKD version MT 1.00 H2O self continuum absorption model.

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of H2O self continuum according to CKD_MT 1.00 [1/m]
Cinstrength scaling factor [1]
modelallows user defined input parameter set (Cin)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure grid [Pa]
abs_tpredefined temperature grid [K]
vmrH2O volume mixing ratio profile [1]
Note
This absorption model is taken from the FORTRAN77 code of CKD_MT version 1.00 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
Author
Thomas Kuhn
Date
2002-28-08

Definition at line 7751 of file continua.cc.

References addF77fields, CREATE_OUT3, ConstMatrixView::ncols(), ConstVectorView::nelem(), ConstMatrixView::nrows(), RADFN_FUN(), SL260_ckd_mt_100, SL260_ckd_mt_100_dv, SL260_ckd_mt_100_npt, SL260_ckd_mt_100_v1, SL260_ckd_mt_100_v2, SL296_ckd_mt_100, SL296_ckd_mt_100_dv, SL296_ckd_mt_100_npt, SL296_ckd_mt_100_v1, SL296_ckd_mt_100_v2, SPEED_OF_LIGHT, and XINT_FUN().

Referenced by xsec_continuum_tag().

◆ CKD_mt_250_CIAfun_n2()

void CKD_mt_250_CIAfun_n2 ( MatrixView  pxsec,
const Numeric  Cin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  vmr,
ConstVectorView  abs_h2o,
ConstVectorView  abs_o2,
const Verbosity verbosity 
)

CKD version MT 2.50 N2-N2 collision induced absorption (fundamental band)

Model reference: version_1 of the Nitrogen Collision Induced Fundamental Lafferty, W.J., A.M. Solodov,A. Weber, W.B. Olson and J._M. Hartmann, Infrared collision-induced absorption by N2 near 4.3 microns for atmospheric applications: Measurements and emprirical modeling, Appl. Optics, 35, 5911-5917, (1996).

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of N2-N2 CIA fundamental band according to CKD_MT 1.00 [1/m]
Cinstrength scaling factor [1]
modelallows user defined input parameter set (Cin)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure grid [Pa]
abs_tpredefined temperature grid [K]
vmrN2 volume mixing ratio profile [1]
Remarks
Lafferty, W.J., A.M. Solodov,A. Weber, W.B. Olson and J._M. Hartmann,
Infrared collision-induced absorption by N2 near 4.3 microns for atmospheric applications: Measurements and emprirical modeling,
Appl. Optics, 35, 5911-5917, (1996)
Note
This absorption model is taken from the FORTRAN77 code of CKD_MT version 1.00 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
Author
Mayuri Tatiya
Date
2014-27-06

Definition at line 10129 of file continua.cc.

References addF77fields, CREATE_OUT3, N2N2_N2F_ckd_mt_250, N2N2_N2F_ckd_mt_250_dv, N2N2_N2F_ckd_mt_250_npt, N2N2_N2F_ckd_mt_250_v1, N2N2_N2F_ckd_mt_250_v2, N2N2_N2Ft_ckd_mt_250, ConstMatrixView::ncols(), ConstVectorView::nelem(), ConstMatrixView::nrows(), RADFN_FUN(), SPEED_OF_LIGHT, VMRCalcLimit, and XINT_FUN().

Referenced by xsec_continuum_tag().

◆ CKD_mt_250_CIArot_n2()

void CKD_mt_250_CIArot_n2 ( MatrixView  pxsec,
const Numeric  Cin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  vmr,
ConstVectorView  abs_h2o,
ConstVectorView  abs_o2,
const Verbosity verbosity 
)

CKD version MT 2.50 N2-N2 collision induced absorption (rotational band)

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

Updated 2014/06/26 based on:

Boissoles, J., C. Boulet, R.H. Tipping, A. Brown and Q. Ma, "Theoretical CAlculations of the Translation-Rotation Collision-Induced Absorption in N2-N2, O2-O2 and N2-O2 Pairs", J.Quant. Spec. Rad. Transfer, 82,505 (2003).

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of N2-N2 CIA rot. band according to CKD_MT 1.00 [1/m]
Cinstrength scaling factor [1]
modelallows user defined input parameter set (Cin)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure grid [Pa]
abs_tpredefined temperature grid [K]
vmr1N2 volume mixing ratio profile [1]
vmr2O2 volume mixing ratio profile [1]
vmr3H2O volume mixing ratio profile [1]
Remarks
Borysow, A, and L. Frommhold,
Collision-induced rototranslational absorption spectra of N2-N2 pairs for temperatures from 50 to 300 K,
The Astrophysical Journal, 311, 1043-1057, 1986.
Note
This absorption model is taken from the FORTRAN77 code of CKD_MT version 2.50 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
Author
Mayuri Tatiya
Date
2014-27-06

Definition at line 9866 of file continua.cc.

References addF77fields, C, CREATE_OUT3, N2N2_CT220_ckd_mt_100, N2N2_CT220_ckd_mt_100_dv, N2N2_CT220_ckd_mt_100_npt, N2N2_CT220_ckd_mt_100_v1, N2N2_CT220_ckd_mt_100_v2, N2N2_CT296_ckd_mt_100, N2N2_CT296_ckd_mt_100_dv, N2N2_CT296_ckd_mt_100_npt, N2N2_CT296_ckd_mt_100_v1, N2N2_CT296_ckd_mt_100_v2, N2N2_sf_220_ckd_mt_100, N2N2_sf_296_ckd_mt_100, ConstMatrixView::ncols(), ConstVectorView::nelem(), ConstMatrixView::nrows(), RADFN_FUN(), SPEED_OF_LIGHT, and XINT_FUN().

Referenced by xsec_continuum_tag().

◆ CKD_mt_250_foreign_h2o()

void CKD_mt_250_foreign_h2o ( MatrixView  pxsec,
const Numeric  Cin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  vmr,
const Verbosity verbosity 
)

CKD version MT 2.50 H2O foreign continuum absorption model.

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of H2O foreign continuum according to CKD_MT 1.00 [1/m]
Cinstrength scaling factor [1]
modelallows user defined input parameter set (Cin)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure grid [Pa]
abs_tpredefined temperature grid [K]
vmrH2O volume mixing ratio profile [1]
Note
This absorption model is taken from the FORTRAN77 code of CKD_MT version 1.00 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
Author
Mayuri Tatiya
Date
2014-30-06

Definition at line 8491 of file continua.cc.

References addF77fields, CREATE_OUT3, FH2O_ckd_mt_100, FH2O_ckd_mt_100_dv, FH2O_ckd_mt_100_npt, FH2O_ckd_mt_100_v1, FH2O_ckd_mt_100_v2, ConstMatrixView::ncols(), ConstVectorView::nelem(), ConstMatrixView::nrows(), RADFN_FUN(), SPEED_OF_LIGHT, and XINT_FUN().

Referenced by xsec_continuum_tag().

◆ CKD_mt_250_o2_vis()

void CKD_mt_250_o2_vis ( MatrixView  pxsec,
const Numeric  Cin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  vmr,
const Verbosity verbosity 
)

CKD version MT 2.50 O2.

Model reference: 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.

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of O2 v1<-v0 band according to CKD_MT 1.00 [1/m]
Cinstrength scaling factor [1]
modelallows user defined input parameter set (Cin)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure grid [Pa]
abs_tpredefined temperature grid [K]
vmrO2 volume mixing ratio profile [1]
Note
This absorption model is taken from the FORTRAN77 code of CKD_MT version 2.50 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

Oxygen band absorption model for the $a^1\Delta_g$$X^3\Sigma^-_g$ band system considering the $\nu=0$$\nu=1$ transitions.
Author
Mayuri Tatiya
Date
2014-27-06

Definition at line 11001 of file continua.cc.

References addF77fields, CREATE_OUT3, ConstMatrixView::ncols(), ConstVectorView::nelem(), ConstMatrixView::nrows(), O2_vis_ckd_mt_250, O2_vis_ckd_mt_250_dv, O2_vis_ckd_mt_250_npt, O2_vis_ckd_mt_250_v1, O2_vis_ckd_mt_250_v2, RADFN_FUN(), SPEED_OF_LIGHT, and XINT_FUN().

Referenced by xsec_continuum_tag().

◆ CKD_mt_250_self_h2o()

void CKD_mt_250_self_h2o ( MatrixView  pxsec,
const Numeric  Cin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  vmr,
const Verbosity verbosity 
)

CKD version MT 2.50 H2O self continuum absorption model.

The following modifications to the water vapor continuum arise from new analyses of ARM measurements in the microwave and far-IR regions. Analyses of measurements in the microwave are based primarily on the two-channel MWR (23.8 and 31.4 GHz) at SGP, with supporting evidence from 150 GHz MWRHF measurements during the COPS campaign and from 170 GHz GVRP measurements at SGP (V. H. Payne, E. J. Mlawer and S. A. Clough). Measurements in the far-IR were from the AERI_ext at the NSA site, in the time surrounding and including the RHUBC-I campaign (J. Delamere and S. A. Clough).

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of H2O self continuum according to CKD_MT 1.00 [1/m]
Cinstrength scaling factor [1]
modelallows user defined input parameter set (Cin)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure grid [Pa]
abs_tpredefined temperature grid [K]
vmrH2O volume mixing ratio profile [1]
Note
This absorption model is taken from the FORTRAN77 code of CKD_MT version 2.50 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
Author
Mayuri Tatiya
Date
2014-26-06

Definition at line 8204 of file continua.cc.

References addF77fields, CREATE_OUT3, ConstMatrixView::ncols(), ConstVectorView::nelem(), ConstMatrixView::nrows(), RADFN_FUN(), SL260_ckd_mt_100, SL260_ckd_mt_100_dv, SL260_ckd_mt_100_npt, SL260_ckd_mt_100_v1, SL260_ckd_mt_100_v2, SL296_ckd_mt_100, SL296_ckd_mt_100_dv, SL296_ckd_mt_100_npt, SL296_ckd_mt_100_v1, SL296_ckd_mt_100_v2, SPEED_OF_LIGHT, and XINT_FUN().

Referenced by xsec_continuum_tag().

◆ CKD_mt_CIAfun_n2()

void CKD_mt_CIAfun_n2 ( MatrixView  pxsec,
const Numeric  Cin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  vmr,
const Verbosity verbosity 
)

CKD version MT 1.00 N2-N2 collision induced absorption (fundamental band)

Model reference: version_1 of the Nitrogen Collision Induced Fundamental Lafferty, W.J., A.M. Solodov,A. Weber, W.B. Olson and J._M. Hartmann, Infrared collision-induced absorption by N2 near 4.3 microns for atmospheric applications: Measurements and emprirical modeling, Appl. Optics, 35, 5911-5917, (1996).

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of N2-N2 CIA fundamental band according to CKD_MT 1.00 [1/m]
Cinstrength scaling factor [1]
modelallows user defined input parameter set (Cin)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure grid [Pa]
abs_tpredefined temperature grid [K]
vmrN2 volume mixing ratio profile [1]
Remarks
Lafferty, W.J., A.M. Solodov,A. Weber, W.B. Olson and J._M. Hartmann,
Infrared collision-induced absorption by N2 near 4.3 microns for atmospheric applications: Measurements and emprirical modeling,
Appl. Optics, 35, 5911-5917, (1996)
Note
This absorption model is taken from the FORTRAN77 code of CKD_MT version 1.00 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
Author
Thomas Kuhn
Date
2002-28-08

Definition at line 9651 of file continua.cc.

References addF77fields, CREATE_OUT3, N2N2_N2F_ckd_mt_100, N2N2_N2F_ckd_mt_100_dv, N2N2_N2F_ckd_mt_100_npt, N2N2_N2F_ckd_mt_100_v1, N2N2_N2F_ckd_mt_100_v2, N2N2_N2Ft_ckd_mt_100, ConstMatrixView::ncols(), ConstVectorView::nelem(), ConstMatrixView::nrows(), RADFN_FUN(), SPEED_OF_LIGHT, VMRCalcLimit, and XINT_FUN().

Referenced by xsec_continuum_tag().

◆ CKD_mt_CIAfun_o2()

void CKD_mt_CIAfun_o2 ( MatrixView  pxsec,
const Numeric  Cin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  vmr,
const Verbosity verbosity 
)

CKD version MT 1.00 O2-O2 collision induced absorption (fundamental band)

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

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of O2-O2 CIA fundamental band according to CKD_MT 1.00 [1/m]
Cinstrength scaling factor [1]
modelallows user defined input parameter set (Cin)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure grid [Pa]
abs_tpredefined temperature grid [K]
vmrO2 volume mixing ratio profile [1]
Remarks
F. Thibault, V. Menoux, R. Le Doucen, L. Rosenman, J.-M. Hartmann, Ch. Boulet,
Infrared collision-induced absorption by O2 near 6.4 microns for atmospheric applications: measurements and emprirical modeling,
Appl. Optics, 35, 5911-5917, (1996).
Note
This absorption model is taken from the FORTRAN77 code of CKD_MT version 1.00 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
Author
Thomas Kuhn
Date
2002-28-08

Definition at line 10347 of file continua.cc.

References addF77fields, CREATE_OUT3, ConstMatrixView::ncols(), ConstVectorView::nelem(), ConstMatrixView::nrows(), O2O2_O2F_ckd_mt_100_dv, O2O2_O2F_ckd_mt_100_npt, O2O2_O2F_ckd_mt_100_v1, O2O2_O2F_ckd_mt_100_v2, O2O2_O2Fo_ckd_mt_100, O2O2_O2Ft_ckd_mt_100, RADFN_FUN(), SPEED_OF_LIGHT, and XINT_FUN().

Referenced by xsec_continuum_tag().

◆ CKD_mt_CIArot_n2()

void CKD_mt_CIArot_n2 ( MatrixView  pxsec,
const Numeric  Cin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  vmr,
const Verbosity verbosity 
)

CKD version MT 1.00 N2-N2 collision induced absorption (rotational band)

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

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of N2-N2 CIA rot. band according to CKD_MT 1.00 [1/m]
Cinstrength scaling factor [1]
modelallows user defined input parameter set (Cin)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure grid [Pa]
abs_tpredefined temperature grid [K]
vmrN2 volume mixing ratio profile [1]
Remarks
Borysow, A, and L. Frommhold,
Collision-induced rototranslational absorption spectra of N2-N2 pairs for temperatures from 50 to 300 K,
The Astrophysical Journal, 311, 1043-1057, 1986.
Note
This absorption model is taken from the FORTRAN77 code of CKD_MT version 1.00 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
Author
Thomas Kuhn
Date
2002-28-08

Definition at line 9405 of file continua.cc.

References addF77fields, CREATE_OUT3, N2N2_CT220_ckd_mt_100, N2N2_CT220_ckd_mt_100_dv, N2N2_CT220_ckd_mt_100_npt, N2N2_CT220_ckd_mt_100_v1, N2N2_CT220_ckd_mt_100_v2, N2N2_CT296_ckd_mt_100, N2N2_CT296_ckd_mt_100_dv, N2N2_CT296_ckd_mt_100_npt, N2N2_CT296_ckd_mt_100_v1, N2N2_CT296_ckd_mt_100_v2, ConstMatrixView::ncols(), ConstVectorView::nelem(), ConstMatrixView::nrows(), RADFN_FUN(), SPEED_OF_LIGHT, and XINT_FUN().

Referenced by xsec_continuum_tag().

◆ CKD_mt_co2()

void CKD_mt_co2 ( MatrixView  pxsec,
const Numeric  Cin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  vmr,
const Verbosity verbosity 
)

CKD version MT 1.00 CO2 continuum absorption model.

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of CO2 continuum according to CKD_MT 1.00 [1/m]
Cinstrength scaling factor [1]
modelallows user defined input parameter set (Cin)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure grid [Pa]
abs_tpredefined temperature grid [K]
vmrCO2 volume mixing ratio profile [1]
Note
This absorption model is taken from the FORTRAN77 code of CKD_MT version 1.00 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
Author
Thomas Kuhn
Date
2002-28-08

Definition at line 8893 of file continua.cc.

References addF77fields, CREATE_OUT3, FCO2_ckd_mt_100, FCO2_ckd_mt_100_dv, FCO2_ckd_mt_100_npt, FCO2_ckd_mt_100_v1, FCO2_ckd_mt_100_v2, ConstMatrixView::ncols(), ConstVectorView::nelem(), ConstMatrixView::nrows(), RADFN_FUN(), SPEED_OF_LIGHT, and XINT_FUN().

Referenced by xsec_continuum_tag().

◆ CKD_mt_v0v0_o2()

void CKD_mt_v0v0_o2 ( MatrixView  pxsec,
const Numeric  Cin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  vmr,
ConstVectorView  abs_n2,
const Verbosity verbosity 
)

CKD version MT 1.00 O2 v0<-v0 band absorption.

Model reference: 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.

The units of these continua coefficients are 1 / (amagat_O2*amagat_air)

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).

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of O2 v0<-v0 band according to CKD_MT 1.00 [1/m]
Cinstrength scaling factor [1]
modelallows user defined input parameter set (Cin)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure grid [Pa]
abs_tpredefined temperature grid [K]
vmrO2 volume mixing ratio profile [1]
abs_n2N2 volume mixing ratio profile [1]
Remarks
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.
Note
This absorption model is taken from the FORTRAN77 code of CKD_MT version 1.00 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

Oxygen band absorption model for the $a^1\Delta_g$$X^3\Sigma^-_g$ band system considering the $\nu=0$$\nu=0$ transitions.
Author
Thomas Kuhn
Date
2002-28-08

Definition at line 10567 of file continua.cc.

References addF77fields, CREATE_OUT3, ConstMatrixView::ncols(), ConstVectorView::nelem(), ConstMatrixView::nrows(), O2_00_ckd_mt_100, O2_00_ckd_mt_100_dv, O2_00_ckd_mt_100_npt, O2_00_ckd_mt_100_v1, O2_00_ckd_mt_100_v2, RADFN_FUN(), SPEED_OF_LIGHT, and XINT_FUN().

Referenced by xsec_continuum_tag().

◆ CKD_mt_v1v0_o2()

void CKD_mt_v1v0_o2 ( MatrixView  pxsec,
const Numeric  Cin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  vmr,
const Verbosity verbosity 
)

CKD version MT 1.00 O2 v1<-v0 band absorption.

Model reference: CKD_MT 1.00 implementation of oxygen v1<-v0 band model of Mlawer, Clough, Brown, Stephen, Landry, Goldman, Murcray, "Observed Atmospheric Collision Induced Absorption in Near Infrared Oxygen Bands", Journal of Geophysical Research, vol 103, no. D4, pp. 3859-3863, 1998.

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of O2 v1<-v0 band according to CKD_MT 1.00 [1/m]
Cinstrength scaling factor [1]
modelallows user defined input parameter set (Cin)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure grid [Pa]
abs_tpredefined temperature grid [K]
vmrO2 volume mixing ratio profile [1]
Remarks
Mlawer, Clough, Brown, Stephen, Landry, Goldman, Murcray,
Observed Atmospheric Collision Induced Absorption in Near Infrared Oxygen Bands,
J. Geophys. Res., 103, D4, 3859-3863, 1998.
Note
This absorption model is taken from the FORTRAN77 code of CKD_MT version 1.00 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

Oxygen band absorption model for the $a^1\Delta_g$$X^3\Sigma^-_g$ band system considering the $\nu=0$$\nu=1$ transitions.
Author
Thomas Kuhn
Date
2002-28-08

Definition at line 10773 of file continua.cc.

References addF77fields, C, CREATE_OUT3, ConstMatrixView::ncols(), ConstVectorView::nelem(), ConstMatrixView::nrows(), O2_10_ckd_mt_100_dv, O2_10_ckd_mt_100_v1, O2_10_ckd_mt_100_v2, RADFN_FUN(), SPEED_OF_LIGHT, and XINT_FUN().

Referenced by xsec_continuum_tag().

◆ CP98H2OAbsModel()

void CP98H2OAbsModel ( MatrixView  pxsec,
const Numeric  CCin,
const Numeric  CLin,
const Numeric  CWin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  vmr,
const Verbosity verbosity 
)

CP98H2OAbsModel.

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of H2O (lines+continuum) according to Cruz-Pol 1998 [1/m]
CCinscaling factor for the H2O-continuum [1]
CLinscaling factor for the line strengths [1]
CWinscaling factor for the line widths [1]
modelallows user defined input parameter set (CCin, CLin, and CWin)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure grid [Pa]
abs_tpredefined temperature grid [K]
vmrH2O volume mixing ratio [1]
Note
Except for model 'user' the input parameters CCin, CLin, and CWin are neglected (model dominates over parameters).
Allowed models: 'CruzPol', 'CruzPolLines', 'CruzPolContinuum', and 'user'. See the user guide for detailed explanations.
Remarks
Reference: S. L. Cruz-Pol et al., Radio Science, 33(5), 1319, 1998.
Author
Thomas Kuhn
Date
2001-11-05

Definition at line 6069 of file continua.cc.

References CREATE_OUT3, Hz_to_GHz, MPMLineShapeFunction(), ConstMatrixView::ncols(), ConstVectorView::nelem(), ConstMatrixView::nrows(), Pa_to_hPa, and VMRCalcLimit.

Referenced by xsec_continuum_tag().

◆ MaTipping_H2O_foreign_continuum()

void MaTipping_H2O_foreign_continuum ( MatrixView  pxsec,
const Numeric  Cin,
const Numeric  xin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  vmr,
const Verbosity verbosity 
)

MaTipping_H2O_foreign_continuum.

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of the H2O-dry air continuum [1/m]
Cinconstant absorption strength [1/m / (Hz*Pa)²]
xintemperature exponent [1]
modelallows user defined input parameter set (C and x)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure [Pa]
abs_tpredefined temperature grid [K]
vmrH2O volume mixing ratio [1]
Note
Except for model 'user' the input parameters C and x are neglected (model dominates over parameters).
Allowed models: 'MaTipping', and 'user'. See the user guide for detailed explanations.
Remarks
Reference: Q. Ma and R. H. Tipping, J. Chem. Phys., 117(23), 10581, 2002.
Author
Thomas Kuhn
Date
2002-12-04

Definition at line 6449 of file continua.cc.

References C, CREATE_OUT3, ConstMatrixView::ncols(), ConstVectorView::nelem(), and ConstMatrixView::nrows().

Referenced by xsec_continuum_tag().

◆ MPM85O2AbsModel()

void MPM85O2AbsModel ( MatrixView  pxsec,
const Numeric  CCin,
const Numeric  CLin,
const Numeric  CWin,
const Numeric  COin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  abs_h2o,
ConstVectorView  vmr,
const Verbosity verbosity 
)

MPM85O2AbsModel.

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of O2 according to MPM89 [1/m]
CCinscaling factor for the O2-continuum [1]
CLinscaling factor for the O2-line strengths [1]
CWinscaling factor for the O2-line widths [1]
COinscaling factor for the O2-line coupling [1]
modelallows user defined input parameter set (CCin, CLin, CWin, and COin)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure [Pa]
abs_tpredefined temperature grid [K]
abs_h2oH2O volume mixing ratio profile [1]
vmrO2 volume mixing ratio profile [1]
Note
Except for model 'user' the input parameters CCin, CLin, CWin, and COin are neglected (model dominates over parameters).
Allowed models: 'MPM85', 'MPM85Lines', 'MPM85Continuum', 'MPM85NoCoupling', 'MPM85NoCutoff', and 'user'. See the user guide for detailed explanations.
Remarks
Reference: H. J. Liebe,
An updated model for millimeter wave propagation in moist air,,
Radio Science, vol. 20, pp. 1069-1089, 1985
Author
Thomas Kuhn
Date
2002-04-05

Definition at line 11645 of file continua.cc.

References CREATE_OUT3, dB_km_to_1_m, Hz_to_GHz, joker, MPMLineShapeO2Function(), ConstMatrixView::ncols(), ConstVectorView::nelem(), ConstMatrixView::nrows(), Pa_to_kPa, and VMRCalcLimit.

Referenced by xsec_continuum_tag().

◆ MPM87H2OAbsModel()

void MPM87H2OAbsModel ( MatrixView  pxsec,
const Numeric  CCin,
const Numeric  CLin,
const Numeric  CWin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  vmr,
const Verbosity verbosity 
)

MPM87H2OAbsModel.

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of H2O (lines+continuum) according to MPM87 [1/m]
CCinscaling factor for the H2O-continuum [1]
CLinscaling factor for the H2O-line strengths [1]
CWinscaling factor for the H2O-line widths [1]
modelallows user defined input parameter set (CCin, CLin, and CWin)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure grid [Pa]
abs_tpredefined temperature grid [K]
vmrH2O volume mixing ratio [1]
Note
Except for model 'user' the input parameters CCin, CLin, and CWin are neglected (model dominates over parameters).
Allowed models: 'MPM87', 'MPM87Lines', 'MPM87Continuum', and 'user'. See the user guide for detailed explanations.
Remarks
H. J. Liebe,
A contribution to modeling atmospheric millimeter-wave properties,
Frequenz, 41, 1987, 31-36
and
H. J. Liebe and D. H. Layton,
Millimeter-wave properties of the atmosphere: Laboratory studies and propagation modeling,
U.S. Dept. of Commerce, National Telecommunications and Information Administration, Institute for Communication Sciences,
325 Broadway, Boulder, CO 80303-3328, report 87224.
Author
Thomas Kuhn
Date
2001-11-05

Definition at line 4980 of file continua.cc.

References CREATE_OUT3, dB_km_to_1_m, Hz_to_GHz, MPMLineShapeFunction(), ConstMatrixView::ncols(), ConstVectorView::nelem(), ConstMatrixView::nrows(), and Pa_to_kPa.

Referenced by xsec_continuum_tag().

◆ MPM87O2AbsModel()

void MPM87O2AbsModel ( MatrixView  pxsec,
const Numeric  CCin,
const Numeric  CLin,
const Numeric  CWin,
const Numeric  COin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  abs_h2o,
ConstVectorView  vmr,
const Verbosity verbosity 
)

MPM87O2AbsModel.

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of O2 according to MPM89 [1/m]
CCinscaling factor for the O2-continuum [1]
CLinscaling factor for the O2-line strengths [1]
CWinscaling factor for the O2-line widths [1]
COinscaling factor for the O2-line coupling [1]
modelallows user defined input parameter set (CCin, CLin, CWin, and COin)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure [Pa]
abs_tpredefined temperature grid [K]
abs_h2oH2O volume mixing ratio profile [1]
vmrO2 volume mixing ratio profile [1]
Note
Except for model 'user' the input parameters CCin, CLin, CWin, and COin are neglected (model dominates over parameters).
Allowed models: 'MPM87', 'MPM87Lines', 'MPM87Continuum', 'MPM87NoCoupling', 'MPM87NoCutoff', and 'user'. See the user guide for detailed explanations.
Remarks
Reference: H. J. Liebe and D. H. Layton,
Millimeter-wave properties of the atmosphere: Laboratory studies and propagation modelling,
U.S. Dept. of Commerce, National Telecommunications and Information Administration, Institute for Communication Sciences, rep. 87-224,
325 Broadway, Boulder, CO 80303-3328
Author
Thomas Kuhn
Date
2002-04-05

Definition at line 11937 of file continua.cc.

References CREATE_OUT3, dB_km_to_1_m, Hz_to_GHz, joker, MPMLineShapeO2Function(), ConstMatrixView::ncols(), ConstVectorView::nelem(), ConstMatrixView::nrows(), Pa_to_kPa, and VMRCalcLimit.

Referenced by xsec_continuum_tag().

◆ MPM89H2OAbsModel()

void MPM89H2OAbsModel ( MatrixView  pxsec,
const Numeric  CCin,
const Numeric  CLin,
const Numeric  CWin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  vmr,
const Verbosity verbosity 
)

MPM89H2OAbsModel.

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of H2O (lines+continuum) according to MPM89 [1/m]
CCinscaling factor for the H2O-continuum [1]
CLinscaling factor for the line strengths [1]
CWinscaling factor for the line widths [1]
modelallows user defined input parameter set (CCin, CLin, and CWin)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure grid [Pa]
abs_tpredefined temperature grid [K]
vmrH2O volume mixing ratio [1]
Note
Except for model 'user' the input parameters CCin, CLin, and CWin are neglected (model dominates over parameters).
Allowed models: 'MPM89', 'MPM89Lines', 'MPM89Continuum', and 'user'. See the user guide for detailed explanations.
Remarks
Reference: H. J. Liebe, Int. J. Infrared and Millimeter Waves, 10(6), 1989, 631.
Author
Thomas Kuhn
Date
2001-11-05

Definition at line 5166 of file continua.cc.

References CREATE_OUT3, dB_km_to_1_m, Hz_to_GHz, MPMLineShapeFunction(), ConstMatrixView::ncols(), ConstVectorView::nelem(), ConstMatrixView::nrows(), and Pa_to_kPa.

Referenced by xsec_continuum_tag().

◆ MPM89O2AbsModel()

void MPM89O2AbsModel ( MatrixView  pxsec,
const Numeric  CCin,
const Numeric  CLin,
const Numeric  CWin,
const Numeric  COin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  abs_h2o,
ConstVectorView  vmr,
const Verbosity verbosity 
)

MPM89O2AbsModel.

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of O2 according to MPM89 [1/m]
CCinscaling factor for the O2-continuum [1]
CLinscaling factor for the O2-line strengths [1]
CWinscaling factor for the O2-line widths [1]
COinscaling factor for the O2-line coupling [1]
modelallows user defined input parameter set (CCin, CLin, CWin, and COin)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure [Pa]
abs_tpredefined temperature grid [K]
abs_h2oH2O volume mixing ratio profile [1]
vmrO2 volume mixing ratio profile [1]
Note
Except for model 'user' the input parameters CCin, CLin, CWin, and COin are neglected (model dominates over parameters).
Allowed models: 'MPM89', 'MPM89Lines', 'MPM89Continuum', 'MPM89NoCoupling', 'MPM89NoCutoff', and 'user'. See the user guide for detailed explanations.
Remarks
Reference: H. J. Liebe,
MPM - an atmospheric millimeter-wave propagation model,
Int. J. Infrared and Mill. Waves, Vol 10, pp. 631-650, 1989.
Author
Thomas Kuhn
Date
2002-04-05

Definition at line 12221 of file continua.cc.

References CREATE_OUT3, dB_km_to_1_m, Hz_to_GHz, joker, MPMLineShapeO2Function(), ConstMatrixView::ncols(), ConstVectorView::nelem(), ConstMatrixView::nrows(), Pa_to_kPa, and VMRCalcLimit.

Referenced by xsec_continuum_tag().

◆ MPM92O2AbsModel()

void MPM92O2AbsModel ( MatrixView  xsec,
const Numeric  CC,
const Numeric  CL,
const Numeric  CW,
const Numeric  CO,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  abs_h2o,
ConstVectorView  vmr 
)

◆ MPM93_H2O_continuum()

void MPM93_H2O_continuum ( MatrixView  pxsec,
const Numeric  fcenter,
const Numeric  b1,
const Numeric  b2,
const Numeric  b3,
const Numeric  b4,
const Numeric  b5,
const Numeric  b6,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  vmr,
const Verbosity verbosity 
)

MPM93 H2O pseudo continuum line parameters:

see publication side of National Telecommunications and Information Administration http://www.its.bldrdoc.gov/pub/all_pubs/all_pubs.html and ftp side for downloading the MPM93 original source code: ftp://ftp.its.bldrdoc.gov/pub/mpm93/

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of H2O according to MPM87 [1/m]
fcentercontinuum pseudo-line center frequency [Hz]
b1continuum pseudo-line line strength [Hz/Pa]
b2continuum pseudo-line line strength temperature exponent [1]
b3continuum pseudo-line line broadening parameter [Hz/Pa]
b4continuum pseudo-line line broadening parameter [1]
b5continuum pseudo-line line broadening parameter [1]
b6continuum pseudo-line line broadening parameter [1]
modelallows user defined input parameter set (fcenter and b1 to b6)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure grid [Pa]
abs_tpredefined temperature grid [K]
vmrH2O volume mixing ratio [1]
Note
Except for model 'user' the input parameters fcenter and b1 to b6 are neglected (model dominates over parameters).
Allowed models: 'MPM93' and 'user'. See the user guide for detailed explanations.
Remarks
Reference: H. J. Liebe and G. A. Hufford and M. G. Cotton,
Propagation modeling of moist air and suspended water/ice particles at frequencies below 1000 GHz,
AGARD 52nd Specialists Meeting of the Electromagnetic Wave Propagation Panel,
Palma de Mallorca, Spain, 1993, May 17-21
Author
Thomas Kuhn
Date
2001-11-05

Definition at line 11506 of file continua.cc.

References CREATE_OUT3, dB_km_to_1_m, MPMLineShapeFunction(), ConstMatrixView::ncols(), ConstVectorView::nelem(), and ConstMatrixView::nrows().

Referenced by xsec_continuum_tag().

◆ MPM93_N2_continuum()

void MPM93_N2_continuum ( MatrixView  pxsec,
const Numeric  Cin,
const Numeric  Gin,
const Numeric  xTin,
const Numeric  xfin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  abs_h2o,
ConstVectorView  vmr,
const Verbosity verbosity 
)

MPM93 N2 continuum.

see publication side of National Telecommunications and Information Administration http://www.its.bldrdoc.gov/pub/all_pubs/all_pubs.html and ftp side for downloading the MPM93 original source code: ftp://ftp.its.bldrdoc.gov/pub/mpm93/

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of N2-continuum according to MPM93 [1/m]
Cincontinuum strength [ppm/GHz]
Ginwidth parameter [Hz/Pa]
xTincontinuum strength temperature exponent [1]
xfincontinuum frequency exponent [1]
modelallows user defined input parameter set (Cin, Gin, xTin, and xfin)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure grid [Pa]
abs_tpredefined temperature grid [K]
abs_h2oH2O volume mixing ratio profile [1]
vmrN2 volume mixing ratio profile [1]
Note
Except for model 'user' the input parameters Cin, Gin, xTin, and xfin are neglected (model dominates over parameters).
Allowed models: 'MPM93' and 'user'. See the user guide for detailed explanations.
Remarks
Reference: H. J. Liebe and G. A. Hufford and M. G. Cotton,
Propagation modeling of moist air and suspended water/ice particles at frequencies below 1000 GHz,
AGARD 52nd Specialists Meeting of the Electromagnetic Wave Propagation Panel,
Palma de Mallorca, Spain, 1993, May 17-21
Author
Thomas Kuhn
Date
2001-11-05

Definition at line 14341 of file continua.cc.

References CREATE_OUT3, fac(), ConstMatrixView::ncols(), ConstVectorView::nelem(), ConstMatrixView::nrows(), PI, and SPEED_OF_LIGHT.

Referenced by xsec_continuum_tag().

◆ MPM93_O2_continuum()

void MPM93_O2_continuum ( MatrixView  pxsec,
const Numeric  S0in,
const Numeric  G0in,
const Numeric  XS0in,
const Numeric  XG0in,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  abs_h2o,
ConstVectorView  vmr,
const Verbosity verbosity 
)

MPM93 O2 continuum:

see publication side of National Telecommunications and Information Administration http://www.its.bldrdoc.gov/pub/all_pubs/all_pubs.html and ftp side for downloading the MPM93 original source code: ftp://ftp.its.bldrdoc.gov/pub/mpm93/

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of O2-continuum according to MPM93 [1/m]
S0inO2-continuum strength [1/Pa]
G0inO2-continuum width [Hz/Pa]
XS0inO2-continuum strength temperature exponent [1]
XG0inO2-continuum width temperature exponent [1]
modelallows user defined input parameter set (S0in, G0in, xS0in, and xG0in)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure grid [Pa]
abs_tpredefined temperature grid [K]
abs_h2oH2O volume mixing ratio profile [1]
vmrO2 volume mixing ratio profile [1]
Note
Except for model 'user' the input parameters S0in, G0in, xS0in, and xG0in are neglected (model dominates over parameters).
Allowed models: 'MPM93' and 'user'. See the user guide for detailed explanations.
Remarks
Reference: H. J. Liebe and G. A. Hufford and M. G. Cotton,
Propagation modeling of moist air and suspended water/ice particles at frequencies below 1000 GHz,
AGARD 52nd Specialists Meeting of the Electromagnetic Wave Propagation Panel,
Palma de Mallorca, Spain, 1993, May 17-21
Author
Thomas Kuhn
Date
2001-11-05

Definition at line 13763 of file continua.cc.

References CREATE_OUT3, joker, ConstMatrixView::ncols(), ConstVectorView::nelem(), ConstMatrixView::nrows(), PI, SPEED_OF_LIGHT, and VMRCalcLimit.

Referenced by xsec_continuum_tag().

◆ MPM93H2OAbsModel()

void MPM93H2OAbsModel ( MatrixView  pxsec,
const Numeric  CCin,
const Numeric  CLin,
const Numeric  CWin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  vmr,
const Verbosity verbosity 
)

MPM93H2OAbsModel.

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of H2O (lines+continuum) according to MPM93 [1/m]
CCinscaling factor for the H2O-continuum [1]
CLinscaling factor for the line strengths [1]
CWinscaling factor for the line widths [1]
modelallows user defined input parameter set (CCin, CLin, and CWin)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure grid [Pa]
abs_tpredefined temperature grid [K]
vmrH2O volume mixing ratio [1]
Note
Except for model 'user' the input parameters CCin, CLin, and CWin are neglected (model dominates over parameters).
Allowed models: 'MPM93', 'MPM93Lines', 'MPM93Continuum', and 'user'. See the user guide for detailed explanations.
Remarks
Reference: H. J. Liebe and G. A. Hufford and M. G. Cotton,
Propagation modeling of moist air and suspended water/ice particles at frequencies below 1000 GHz,
AGARD 52nd Specialists Meeting of the Electromagnetic Wave Propagation Panel,
Palma de Mallorca, Spain, 1993, May 17-21
Attention
The H2O lines at 547.676440 GHz and 552.020960 GHz are isotopologue lines:
547 GHz is from the isotopologue 1-8-1 (HITRAN code 181, JPL code 20003) with an isotopologue ratio of 0.00199983 and
552 GHz is from the isotopologue 1-7-1 (HITRAN code 171, JPL code 19003) with an isotopologue ratio of 0.00037200.
The original source code of MPM93 has these isotopologue ratios not included in the line strength parameter b1, which is an error.
In the arts implementation the line strength parameter b1 of these two lines is multiplied with the appropriate isotopologue ratio.
Author
Thomas Kuhn
Date
2001-11-05

Definition at line 5630 of file continua.cc.

References CREATE_OUT3, dB_km_to_1_m, Hz_to_GHz, MPMLineShapeFunction(), ConstMatrixView::ncols(), ConstVectorView::nelem(), ConstMatrixView::nrows(), and Pa_to_hPa.

Referenced by xsec_continuum_tag().

◆ MPM93IceCrystalAbs()

void MPM93IceCrystalAbs ( MatrixView  pxsec,
const Numeric  CCin,
const Numeric  CAin,
const Numeric  CBin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  vmr,
const Verbosity verbosity 
)

MPM93IceCrystalAbs.

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of ice clouds according to MPM93 [1/m]
CCinscaling parameter of the calculated cross section [1]
CAinscaling parameter of the permittivity function a (see page 3-6 in the reference) [1]
CBinscaling parameter of the permittivity function b (see page 3-6 in the reference) [1]
modelallows user defined input parameter (CCin, CAin, CBin)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure grid [Pa]
abs_tpredefined temperature grid [K]
vmrsuspended water droplet density profile (valid range: 0-0.001) [kg/m³]
Note
Except for model 'user' the input parameters CCin, CAin, and CBin are neglected (model dominates over parameters).
Allowed models: 'MPM93' and 'user'. See the user guide for detailed explanations.
Remarks
Reference: H. J. Liebe and G. A. Hufford and M. G. Cotton,
Propagation modeling of moist air and suspended water/ice particles at frequencies below 1000 GHz,
AGARD 52nd Specialists Meeting of the Electromagnetic Wave Propagation Panel,
Palma de Mallorca, Spain, 1993, May 17-21.
Author
Thomas Kuhn
Date
2001-11-05

Definition at line 15391 of file continua.cc.

References CREATE_OUT3, dB_km_to_1_m, Hz_to_GHz, ConstMatrixView::ncols(), ConstVectorView::nelem(), and ConstMatrixView::nrows().

Referenced by xsec_continuum_tag().

◆ MPM93O2AbsModel()

void MPM93O2AbsModel ( MatrixView  pxsec,
const Numeric  CCin,
const Numeric  CLin,
const Numeric  CWin,
const Numeric  COin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  abs_h2o,
ConstVectorView  vmr,
const Verbosity verbosity 
)

MPM93O2AbsModel.

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of O2 according to MPM93 [1/m]
CCinscaling factor for the O2-continuum [1]
CLinscaling factor for the O2-line strengths [1]
CWinscaling factor for the O2-line widths [1]
COinscaling factor for the O2-line coupling [1]
modelallows user defined input parameter set (CCin, CLin, CWin, and COin)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure [Pa]
abs_tpredefined temperature grid [K]
abs_h2oH2O volume mixing ratio profile [1]
vmrO2 volume mixing ratio profile [1]
Note
Except for model 'user' the input parameters CCin, CLin, CWin, and COin are neglected (model dominates over parameters).
Allowed models: 'MPM93', 'MPM93Lines', 'MPM93Continuum', 'MPM93NoCoupling', 'MPM93NoCutoff', and 'user'. See the user guide for detailed explanations.
Remarks
Reference: H. J. Liebe and G. A. Hufford and M. G. Cotton,
Propagation modeling of moist air and suspended water/ice particles at frequencies below 1000 GHz,
AGARD 52nd Specialists Meeting of the Electromagnetic Wave Propagation Panel,
Palma de Mallorca, Spain, 1993, May 17-21
Author
Thomas Kuhn
Date
2001-11-05

Definition at line 13071 of file continua.cc.

References CREATE_OUT3, dB_km_to_1_m, Hz_to_GHz, joker, MPMLineShapeO2Function(), ConstMatrixView::ncols(), ConstVectorView::nelem(), ConstMatrixView::nrows(), Pa_to_hPa, and VMRCalcLimit.

Referenced by xsec_continuum_tag().

◆ MPM93RainExt()

void MPM93RainExt ( MatrixView  pxsec,
const Numeric  CEin,
const Numeric  CAin,
const Numeric  CBin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  vmr,
const Verbosity verbosity 
)

MPM93RainExt.

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of water clouds according to MPM93 [1/m]
CEinscaling parameter of the calculated cross section [1]
CAinscaling parameter of the factor a_rain [1]
CBinscaling parameter of the exponent b_rain [1]
modelallows user defined input parameter (CEin, CAin, CBin)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure grid [Pa]
abs_tpredefined temperature grid [K]
vmrrain rate vector (i.e. vertical profile), (valid range: 0-150) [mm/h]
Note
Except for model 'user' the input parameters CEin, CAin, and CBin are neglected (model dominates over parameters).
Allowed models: 'MPM93' and 'user'. See the user guide for detailed explanations.
Remarks
Reference: R. L. Olsen and D.V. Rogers and D. B. Hodge,
The aR^b relation in the calculation of rain attenuation,
IEEE Trans. Antennas Propagat., vol. AP-26, pp. 318-329, 1978.
Author
Christian Melsheimer
Date
2003-22-05

Definition at line 15554 of file continua.cc.

References CREATE_OUT3, dB_km_to_1_m, Hz_to_GHz, joker, ConstMatrixView::ncols(), ConstVectorView::nelem(), and ConstMatrixView::nrows().

Referenced by xsec_continuum_tag().

◆ MPM93WaterDropletAbs()

void MPM93WaterDropletAbs ( MatrixView  pxsec,
const Numeric  CCin,
const Numeric  CGin,
const Numeric  CEin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  vmr,
const Verbosity verbosity 
)

MPM93WaterDropletAbs.

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of water clouds according to MPM93 [1/m]
CCinscaling parameter of the calculated cross section [1]
CGinscaling parameter of the first relaxation frequency (gamma_1, see page 3-6 in the reference) [1]
CEinscaling parameter of the first permittivity component (epsilon_0, see page 3-6 in the reference) [1]
modelallows user defined input parameter (CCin, CGin, CEin)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure grid [Pa]
abs_tpredefined temperature grid [K]
vmrsuspended water droplet density profile (valid range: 0-0.001) [kg/m³]
Note
Except for model 'user' the input parameters CCin, CGin, and CEin are neglected (model dominates over parameters).
Allowed models: 'MPM93' and 'user'. See the user guide for detailed explanations.
Remarks
Reference: H. J. Liebe and G. A. Hufford and M. G. Cotton,
Propagation modeling of moist air and suspended water/ice particles at frequencies below 1000 GHz,
AGARD 52nd Specialists Meeting of the Electromagnetic Wave Propagation Panel,
Palma de Mallorca, Spain, 1993, May 17-21.
Author
Thomas Kuhn
Date
2001-11-05

Definition at line 15214 of file continua.cc.

References CREATE_OUT3, dB_km_to_1_m, Hz_to_GHz, ConstMatrixView::ncols(), ConstVectorView::nelem(), and ConstMatrixView::nrows().

Referenced by xsec_continuum_tag().

◆ MPMLineShapeFunction()

Numeric MPMLineShapeFunction ( const Numeric  gamma,
const Numeric  fl,
const Numeric  f 
)
Return values
MPMLineShapeFunctionH2O-line shape function value [1/Hz]
Parameters
gammaH2O-line width [Hz]
flH2O-line central frequency [Hz]
ffrequency position of calculation [Hz]
Note
This function calculates the line shape function of Van Vleck and Weisskopf with the factor (f/fl)¹. for the MPM pseudo continuum line.
Remarks
Reference: H. J. Liebe and G. A. Hufford and M. G. Cotton,
Propagation modeling of moist air and suspended water/ice particles at frequencies below 1000 GHz,
AGARD 52nd Specialists Meeting of the Electromagnetic Wave Propagation Panel,
Palma de Mallorca, Spain, 1993, May 17-21
Author
Thomas Kuhn
Date
2001-11-05

Definition at line 15834 of file continua.cc.

Referenced by CP98H2OAbsModel(), MPM02H2OAbsModel(), MPM87H2OAbsModel(), MPM89H2OAbsModel(), MPM93_H2O_continuum(), and MPM93H2OAbsModel().

◆ MPMLineShapeO2Function()

Numeric MPMLineShapeO2Function ( const Numeric  gamma,
const Numeric  fl,
const Numeric  f,
const Numeric  delta 
)
Return values
MPMLineShapeO2FunctionO2-line shape function value [1]
Parameters
gammaO2-line width [Hz]
flH2O-line central frequency of the [Hz]
ffrequency position of calculation [Hz]
deltaO2-line mixing parameter [1]
Note
This function calculates the line shape function of Van Vleck and Weisskopf for O2 with line mixing.
Remarks
Reference: H. J. Liebe and G. A. Hufford and M. G. Cotton,
Propagation modeling of moist air and suspended water/ice particles at frequencies below 1000 GHz,
AGARD 52nd Specialists Meeting of the Electromagnetic Wave Propagation Panel,
Palma de Mallorca, Spain, 1993, May 17-21
Author
Thomas Kuhn
Date
2001-11-05

Definition at line 15891 of file continua.cc.

Referenced by MPM85O2AbsModel(), MPM87O2AbsModel(), MPM89O2AbsModel(), MPM92O2AbsModel(), MPM93O2AbsModel(), and TRE05O2AbsModel().

◆ Pardo_ATM_H2O_ForeignContinuum()

void Pardo_ATM_H2O_ForeignContinuum ( MatrixView  pxsec,
const Numeric  Cin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  vmr,
const Verbosity verbosity 
)

Pardo_ATM_H2O_ForeignContinuum.

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of N2-continuum according to Rosenkranz, 1993 [1/m]
Cincontinuum strength [1/m * 1/(Hz*Pa)²]
modelallows user defined input parameter set (Cin and xTin)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure grid [Pa]
abs_tpredefined temperature grid [K]
vmrH2O volume mixing ratio [1]
Note
Except for model 'user' the input parameters Cin and xTin are neglected (model dominates over parameters).
Allowed models: 'ATM', and 'user'. See the user guide for detailed explanations.
Remarks
Reference: Pardo et al., IEEE, Trans. Ant. Prop.,
Vol 49, No 12, pp. 1683-1694, 2001.
Author
Thomas Kuhn
Date
2001-04-10

Definition at line 11390 of file continua.cc.

References C, CREATE_OUT3, ConstMatrixView::ncols(), ConstVectorView::nelem(), and ConstMatrixView::nrows().

Referenced by xsec_continuum_tag().

◆ Pardo_ATM_N2_dry_continuum()

void Pardo_ATM_N2_dry_continuum ( MatrixView  pxsec,
const Numeric  Cin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  vmr,
ConstVectorView  h2ovmr,
const Verbosity verbosity 
)

Pardo_ATM_N2_dry_continuum.

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of N2-continuum according to Rosenkranz, 1993 [1/m]
Cincontinuum strength [1/m * 1/(Hz*Pa)²]
modelallows user defined input parameter set (Cin and xTin)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure grid [Pa]
abs_tpredefined temperature grid [K]
vmrN2 volume mixing ratio [1]
h2ovmrH2O volume mixing ratio [1]
Note
Except for model 'user' the input parameters Cin and xTin are neglected (model dominates over parameters).
Allowed models: 'ATM', and 'user'. See the user guide for detailed explanations.
Remarks
Reference: Pardo et al., IEEE, Trans. Ant. Prop.,
Vol 49, No 12, pp. 1683-1694, 2001.
Author
Thomas Kuhn
Date
2001-04-10

Definition at line 14476 of file continua.cc.

References C, CREATE_OUT3, ConstMatrixView::ncols(), ConstVectorView::nelem(), ConstMatrixView::nrows(), and VMRCalcLimit.

Referenced by xsec_continuum_tag().

◆ PWR93O2AbsModel()

void PWR93O2AbsModel ( MatrixView  pxsec,
const Numeric  CCin,
const Numeric  CLin,
const Numeric  CWin,
const Numeric  COin,
const String model,
const String version,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  vmrh2o,
ConstVectorView  vmr,
const Verbosity verbosity 
)

Oxygen complex at 60 GHz plus mm O2 lines plus O2 continuum.

REFERENCES FOR EQUATIONS AND COEFFICIENTS: 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. This version differs from Liebe's MPM92 in two significant respects:

  1. It uses the modification of the 1- line width temperature dependence recommended by Schwartz: (1/T).
  2. It uses the same temperature dependence (X) for submillimeter line widths as in the 60 GHz band: (1/T)**0.8

history: 05-01-95 P. Rosenkranz 11-05-97 P. Rosenkranz - 1- line modification. 12-16-98 pwr - updated submm freq's and intensities from HITRAN96

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of O2 according to the P. W. Rosenkranz, 1993 [1/m]
CCinO2-continuum scale factor [1]
CLinO2 line strength scale factor [1]
CWinO2 line broadening scale factor [1]
COinO2 line coupling scale factor [1]
modelallows user defined input parameter set (CCin, CLin, CWin, and COin)
or choice of pre-defined parameters of specific models (see note below).
versiondetermines model version: 1988, 1993, 1998
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure [Pa]
abs_tpredefined temperature grid [K]
vmrh2oH2O volume mixing ratio profile [1]
vmrO2 volume mixing ratio profile [1]
Note
Except for model 'user' the input parameters CCin, CLin, CWin, and COin are neglected (model dominates over parameters).
Allowed models:
'Rosenkranz', 'RosenkranzLines', 'RosenkranzContinuum', 'RosenkranzNoCoupling', and 'user'.
For the parameter version the following three string values are allowed: 'PWR88', 'PWR93', 'PWR98'.
See the user guide for detailed explanations.
Remarks
Reference: P. W. Rosenkranz, Chapter 2, in M. A. Janssen,
Atmospheric Remote Sensing by Microwave Radiometry,
John Wiley & Sons, Inc., 1993.
Author
Thomas Kuhn
Date
2001-11-05

Definition at line 13376 of file continua.cc.

References CREATE_OUT3, Hz_to_GHz, joker, ConstMatrixView::ncols(), ConstVectorView::nelem(), ConstMatrixView::nrows(), Pa_to_hPa, PI, and VMRCalcLimit.

Referenced by xsec_continuum_tag().

◆ PWR98H2OAbsModel()

void PWR98H2OAbsModel ( MatrixView  pxsec,
const Numeric  CCin,
const Numeric  CLin,
const Numeric  CWin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  vmr,
const Verbosity verbosity 
)

PWR98H2OAbsModel.

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of H2O (lines+continuum) according to P. W. Rosenkranz, 1998 [1/m]
CCinscaling factor for the H2O-continuum [1]
CLinscaling factor for the line strengths [1]
CWinscaling factor for the line widths [1]
modelallows user defined input parameter set (CCin, CLin, and CWin)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure grid [Pa]
abs_tpredefined temperature grid [K]
vmrH2O volume mixing ratio [1]
Note
Except for model 'user' the input parameters CCin, CLin, and CWin are neglected (model dominates over parameters).
Allowed models: 'Rosenkranz', 'RosenkranzLines', 'RosenkranzContinuum', and 'user'. See the user guide for detailed explanations.
Remarks
Reference: P. W. Rosenkranz., Radio Science, 33(4), 919, 1998 and Radio Science, Vol. 34(4), 1025, 1999.
Author
Thomas Kuhn
Date
2001-11-05

Definition at line 5856 of file continua.cc.

References CREATE_OUT3, Hz_to_GHz, ConstMatrixView::ncols(), ConstVectorView::nelem(), ConstMatrixView::nrows(), and Pa_to_hPa.

Referenced by xsec_continuum_tag().

◆ Rosenkranz_CO2_foreign_continuum()

void Rosenkranz_CO2_foreign_continuum ( MatrixView  pxsec,
const Numeric  Cin,
const Numeric  xin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  abs_n2,
ConstVectorView  vmr,
const Verbosity verbosity 
)

Rosenkranz_CO2_foreign_continuum.

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of CO2-N2-continuum according to Rosenkranz, 1993 [1/m]
Cincontinuum strength [1/m * 1/(Hz*Pa)²]
xincontinuum temperature exponent [1]
modelallows user defined input parameter set (Cin and xin)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure grid [Pa]
abs_tpredefined temperature grid [K]
abs_n2N2 volume mixing ratio profile [1]
vmrCO2 volume mixing ratio profile [1]
Note
Except for model 'user' the input parameters Cin and xin are neglected (model dominates over parameters).
Allowed models: 'Rosenkranz' and 'user'. See the user guide for detailed explanations.
Remarks
Reference: P. W. Rosenkranz, Chapter 2, pp 74, in M. A. Janssen,
Atmospheric Remote Sensing by Microwave Radiometry,
John Wiley & Sons, Inc., 1993.
Author
Thomas Kuhn
Date
2001-11-05

Definition at line 14908 of file continua.cc.

References C, CREATE_OUT3, ConstMatrixView::ncols(), ConstVectorView::nelem(), and ConstMatrixView::nrows().

Referenced by xsec_continuum_tag().

◆ Rosenkranz_CO2_self_continuum()

void Rosenkranz_CO2_self_continuum ( MatrixView  pxsec,
const Numeric  Cin,
const Numeric  xin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  vmr,
const Verbosity verbosity 
)

Rosenkranz_CO2_self_continuum.

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of CO2-CO2-continuum according to Rosenkranz, 1993 [1/m]
Cincontinuum strength [1/m * 1/(Hz*Pa)²]
xincontinuum temperature exponent [1]
modelallows user defined input parameter set (Cin and xin)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure grid [Pa]
abs_tpredefined temperature grid [K]
vmrCO2 volume mixing ratio [1]
Note
Except for model 'user' the input parameters Cin and xin are neglected (model dominates over parameters).
Allowed models: 'Rosenkranz' and 'user'. See the user guide for detailed explanations.
Remarks
Reference: P. W. Rosenkranz, Chapter 2, pp 74, pp 74, in M. A. Janssen,
Atmospheric Remote Sensing by Microwave Radiometry,
John Wiley & Sons, Inc., 1993.
Author
Thomas Kuhn
Date
2001-11-05

Definition at line 14807 of file continua.cc.

References C, CREATE_OUT3, ConstMatrixView::ncols(), ConstVectorView::nelem(), and ConstMatrixView::nrows().

Referenced by xsec_continuum_tag().

◆ Rosenkranz_N2_self_continuum()

void Rosenkranz_N2_self_continuum ( MatrixView  pxsec,
const Numeric  Cin,
const Numeric  xin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  vmr,
const Verbosity verbosity 
)

Rosenkranz_N2_self_continuum.

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of N2-continuum according to Rosenkranz, 1993 [1/m]
Cincontinuum strength [1/m * 1/(Hz*Pa)²]
xintemperature exponent of N2-continuum [1]
modelallows user defined input parameter set (Cin and xTin)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure grid [Pa]
abs_tpredefined temperature grid [K]
vmrH2O volume mixing ratio [1]
Note
Except for model 'user' the input parameters Cin and xTin are neglected (model dominates over parameters).
Allowed models: 'Rosenkranz', and 'user'. See the user guide for detailed explanations.
Remarks
Reference: P. W. Rosenkranz, Chapter 2, pp 74, in M. A. Janssen,
Atmospheric Remote Sensing by Microwave Radiometry,
John Wiley & Sons, Inc., 1993.
Author
Thomas Kuhn
Date
2001-11-05

Definition at line 14581 of file continua.cc.

References C, CREATE_OUT3, ConstMatrixView::ncols(), ConstVectorView::nelem(), and ConstMatrixView::nrows().

Referenced by xsec_continuum_tag().

◆ Rosenkranz_O2_continuum()

void Rosenkranz_O2_continuum ( MatrixView  pxsec,
const Numeric  S0in,
const Numeric  G0in,
const Numeric  XS0in,
const Numeric  XG0in,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  abs_h2o,
ConstVectorView  vmr,
const Verbosity verbosity 
)

3) O2-air

P. W. Rosenkranz Chapter 2, pp 74, in M. A. Janssen, "Atmospheric Remote Sensing by Microwave Radiometry", John Wiley & Sons, Inc., 1993. Also stated in Liebe et al. JQSRT, Vol 48, Nr 5/6, pp. 629-643, 1992. Default continuum parameters are C=1.6E-17*10E-9, x=0.8

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of O2-continuum according to Rosenkranz 1993 [1/m]
S0inline strength [K²/(Hz*Pa*m)]
G0inline width [Hz/Pa]
XS0inline strength temperature exponent [1]
XG0inline widths temperature exponent [1]
modelallows user defined input parameter set (S0in, G0in, XS0in, and XG0in)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure grid [Pa]
abs_tpredefined temperature grid [K]
abs_h2oH2O volume mixing ratio profile [1]
vmrO2 volume mixing ratio profile [1]
Note
Except for model 'user' the input parameters S0in, G0in, XS0in, and XG0in are neglected (model dominates over parameters).
Allowed models: 'Rosenkranz' and 'user'. See the user guide for detailed explanations.
Remarks
Reference: P. W. Rosenkranz, Chapter 2, in M. A. Janssen,
Atmospheric Remote Sensing by Microwave Radiometry,
John Wiley & Sons, Inc., 1993.
Author
Thomas Kuhn
Date
2001-11-05

Definition at line 13918 of file continua.cc.

References CREATE_OUT3, ConstMatrixView::ncols(), ConstVectorView::nelem(), and ConstMatrixView::nrows().

Referenced by xsec_continuum_tag().

◆ Standard_H2O_foreign_continuum()

void Standard_H2O_foreign_continuum ( MatrixView  pxsec,
const Numeric  Cin,
const Numeric  xin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  vmr,
const Verbosity verbosity 
)

Standard_H2O_foreign_continuum.

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of the H2O-dry air continuum [1/m]
Cinconstant absorption strength [1/m / (Hz*Pa)²]
xintemperature exponent [1]
modelallows user defined input parameter set (C and x)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_tpredefined temperature grid [K]
abs_ppredefined pressure [Pa]
vmrH2O volume mixing ratio [1]
Note
Except for model 'user' the input parameters C and x are neglected (model dominates over parameters).
Allowed models: 'Rosenkranz', 'CruzPol', 'MPM89', 'MPM87', and 'user'. See the user guide for detailed explanations.
Remarks
Reference: P. W. Rosenkranz., Radio Science, 33(4), 919, 1998 and Radio Science, Vol. 34(4), 1025, 1999.
Author
Thomas Kuhn
Date
2001-08-03

Definition at line 6325 of file continua.cc.

References C, CREATE_OUT3, ConstMatrixView::ncols(), ConstVectorView::nelem(), and ConstMatrixView::nrows().

Referenced by xsec_continuum_tag().

◆ Standard_H2O_self_continuum()

void Standard_H2O_self_continuum ( MatrixView  pxsec,
const Numeric  Cin,
const Numeric  xin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  vmr,
const Verbosity verbosity 
)

Standard_H2O_self_continuum.

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of the H2O-H2O continuum [1/m]
Cinconstant absorption strength [1/m / (Hz*Pa)²]
xintemperature exponent of (300/T) [1]
modelallows user defined input parameter set (C and x)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure grid [Pa]
abs_tpredefined temperature grid [K]
vmrH2O volume mixing ratio [1]
Note
Except for model 'user' the input parameters C and x are neglected (model dominates over parameters).
Allowed models: 'Rosenkranz', 'CruzPol', 'MPM89', 'MPM87', and 'user'. See the user guide for detailed explanations.
Remarks
Reference: P. W. Rosenkranz., Radio Science, 33(4), 919, 1998 and Radio Science, Vol. 34(4), 1025, 1999.
Author
Thomas Kuhn
Date
2001-11-05

Definition at line 6201 of file continua.cc.

References C, CREATE_OUT3, ConstMatrixView::ncols(), ConstVectorView::nelem(), and ConstMatrixView::nrows().

Referenced by xsec_continuum_tag().

◆ Standard_N2_self_continuum()

void Standard_N2_self_continuum ( MatrixView  pxsec,
const Numeric  Cin,
const Numeric  xfin,
const Numeric  xtin,
const Numeric  xpin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  vmr,
const Verbosity verbosity 
)

4) N2-N2

P. W. Rosenkranz Chapter 2, pp 74, in M. A. Janssen, "Atmospheric Remote Sensing by Microwave Radiometry", John Wiley & Sons, Inc., 1993

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of N2-continuum according to Rosenkranz, 1993 [1/m]
Cincontinuum strength [1/m * 1/(Hz*Pa)²]
xfincontinuum frequency exponent [1]
xtincontinuum strength temperature exponent [1]
xpincontinuum strength pressure exponent [1]
modelallows user defined input parameter set (Cin, xfin, xtin, and xpin)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure grid [Pa]
abs_tpredefined temperature grid [K]
vmrH2O volume mixing ratio [1]
Note
Except for model 'user' the input parameters Cin, xfin, xtin, and xpin are neglected (model dominates over parameters).
Allowed models: 'Rosenkranz', and 'user'. See the user guide for detailed explanations.
Remarks
Reference: P. W. Rosenkranz, Chapter 2, in M. A. Janssen,
Atmospheric Remote Sensing by Microwave Radiometry,
John Wiley & Sons, Inc., 1993.
Author
Thomas Kuhn
Date
2001-11-05

Definition at line 14687 of file continua.cc.

References C, CREATE_OUT3, ConstMatrixView::ncols(), ConstVectorView::nelem(), and ConstMatrixView::nrows().

Referenced by xsec_continuum_tag().

◆ TRE05O2AbsModel()

void TRE05O2AbsModel ( MatrixView  pxsec,
const Numeric  CCin,
const Numeric  CLin,
const Numeric  CWin,
const Numeric  COin,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  abs_h2o,
ConstVectorView  vmr,
const Verbosity verbosity 
)

TRE05O2AbsModel.

Parameters
[out]pxseccross section (absorption/volume mixing ratio) of O2 according to TRE05 [1/m]
CCinscaling factor for the O2-continuum [1]
CLinscaling factor for the O2-line strengths [1]
CWinscaling factor for the O2-line widths [1]
COinscaling factor for the O2-line coupling [1]
modelallows user defined input parameter set (CCin, CLin, CWin, and COin)
or choice of pre-defined parameters of specific models (see note below).
f_gridpredefined frequency grid [Hz]
abs_ppredefined pressure [Pa]
abs_tpredefined temperature grid [K]
abs_h2oH2O volume mixing ratio profile [1]
vmrO2 volume mixing ratio profile [1]
Note
Except for model 'user' the input parameters CCin, CLin, CWin, and COin are neglected (model dominates over parameters).
Allowed models: 'TRE05', 'TRE05Lines', 'TRE05Continuum', 'TRE05NoCoupling', 'TRE05NoCutoff', and 'user'. See the user guide for detailed explanations.
Remarks
References: H. J. Liebe and G. A. Hufford and M. G. Cotton,
Propagation modeling of moist air and suspended water/ice particles at frequencies below 1000 GHz,
AGARD 52nd Specialists Meeting of the Electromagnetic Wave Propagation Panel,
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

Remarks
This is a copy of MPM93O2AbsModel with an exception of having new values from the Tretyakov etal. 2005 paper.
Author
Richard Larsson
Date
2013-09-20

Definition at line 12787 of file continua.cc.

References CREATE_OUT3, dB_km_to_1_m, Hz_to_GHz, joker, MPMLineShapeO2Function(), ConstMatrixView::ncols(), ConstVectorView::nelem(), ConstMatrixView::nrows(), Pa_to_hPa, and VMRCalcLimit.

Referenced by xsec_continuum_tag().

◆ WVSatPressureIce()

Numeric WVSatPressureIce ( const Numeric  t)
Return values
WVSatPressureIcewater vapor saturation pressure over liquid water [Pa]
Parameters
ttemperature [K]
Note
This function calculates the water vapor saturation pressure over ice water according to the Goff-Gratch equation. Other links:
Global Atmospheric Water Balance
Schlatter (profsc.fsl.noaa.gov)
Remarks
Reference: H. J. Liebe and G. A. Hufford and M. G. Cotton,
Propagation modeling of moist air and suspended water/ice particles at frequencies below 1000 GHz,
AGARD 52nd Specialists Meeting of the Electromagnetic Wave Propagation Panel,
Palma de Mallorca, Spain, 1993, May 17-21
Author
Thomas Kuhn
Date
2001-11-05

Definition at line 16016 of file continua.cc.

◆ WVSatPressureLiquidWater()

Numeric WVSatPressureLiquidWater ( const Numeric  t)
Return values
WVSatPressureLiquidWaterwater vapor saturation pressure over liquid water [Pa]
Parameters
ttemperature [K]
Note
This function calculates the water vapor saturation pressure over liquid water according to the Goff-Gratch equation.
Other links:
Global Atmospheric Water Balance
Schlatter (profsc.fsl.noaa.gov)
Remarks
Reference: H. J. Liebe and G. A. Hufford and M. G. Cotton,
Propagation modeling of moist air and suspended water/ice particles at frequencies below 1000 GHz,
AGARD 52nd Specialists Meeting of the Electromagnetic Wave Propagation Panel,
Palma de Mallorca, Spain, 1993, May 17-21
Author
Thomas Kuhn
Date
2001-11-05

Definition at line 15951 of file continua.cc.

◆ xsec_continuum_tag()

void xsec_continuum_tag ( MatrixView  xsec,
const String name,
ConstVectorView  parameters,
const String model,
ConstVectorView  f_grid,
ConstVectorView  abs_p,
ConstVectorView  abs_t,
ConstVectorView  abs_n2,
ConstVectorView  abs_h2o,
ConstVectorView  abs_o2,
ConstVectorView  vmr,
const Verbosity verbosity 
)

Calculates model absorption for one continuum or full model tag.

Note, that only one tag can be taken at a time.

Calculated is the true absorption cross section, that means you have to multiply this with n*VMR in order to get the absorption coefficient in units of 1/m.

This is the type of xsec that is used all over ARTS, but not what is used by the internal continuum functions! (We have to divide the output of the internal continuum functions by the number density n.)

Return values
xsecCross section of one continuum tag,
xsec = alpha / (n*VMR) [m^2]. This is both input and output! (The function adds the continuum absorption cross section to the previous content of xsec.)
Parameters
nameThe name of the model to calculate (derived from the tag name)
parametersmodel parameters, as defined in method abs_cont_parameters.
modelmodel, related to model parameters
f_gridFrequency grid [Hz]
abs_pPressure grid [Pa]
abs_tTemperatures associated with the pressure grid, abs_p [K]
abs_n2Total volume mixing ratio profile of molecular nitrogen.
This will be needed only for the CO2 foreign continuum [1]
however one is forced to give this input [1]
abs_h2oTotal volume mixing ratio profile of water vapor.
This will be needed only for the oxygen continuum
however one is forced to give this input [1]
vmrVolume mixing ratio profile of the actual species [1]
Author
Stefan Buehler, Thomas Kuhn
Date
2001-11-05

Definition at line 16085 of file continua.cc.

References BF86_CIA_N2(), BOLTZMAN_CONST, CKD24_H20(), CKD_222_foreign_h2o(), CKD_222_self_h2o(), CKD_241_co2(), CKD_242_foreign_h2o(), CKD_242_self_h2o(), CKD_mt_100_foreign_h2o(), CKD_mt_100_self_h2o(), CKD_mt_250_CIAfun_n2(), CKD_mt_250_CIArot_n2(), CKD_mt_250_co2(), CKD_mt_250_foreign_h2o(), CKD_mt_250_o2_vis(), CKD_mt_250_self_h2o(), CKD_mt_CIAfun_n2(), CKD_mt_CIAfun_o2(), CKD_mt_CIArot_n2(), CKD_mt_co2(), CKD_mt_v0v0_o2(), CKD_mt_v1v0_o2(), CP98H2OAbsModel(), CREATE_OUT3, Ho66_CO2_foreign_continuum(), Ho66_CO2_self_continuum(), joker, MaTipping_H2O_foreign_continuum(), MPM85O2AbsModel(), MPM87H2OAbsModel(), MPM87O2AbsModel(), MPM89H2OAbsModel(), MPM89O2AbsModel(), MPM92O2AbsModel(), MPM93_H2O_continuum(), MPM93_N2_continuum(), MPM93_O2_continuum(), MPM93H2OAbsModel(), MPM93IceCrystalAbs(), MPM93O2AbsModel(), MPM93RainExt(), MPM93WaterDropletAbs(), ConstMatrixView::ncols(), ConstVectorView::nelem(), ConstMatrixView::nrows(), Pardo_ATM_H2O_ForeignContinuum(), Pardo_ATM_N2_dry_continuum(), PWR93O2AbsModel(), PWR98H2OAbsModel(), Rosenkranz_CO2_foreign_continuum(), Rosenkranz_CO2_self_continuum(), Rosenkranz_N2_self_continuum(), Rosenkranz_O2_continuum(), Standard_H2O_foreign_continuum(), Standard_H2O_self_continuum(), Standard_N2_self_continuum(), Standard_O2_continuum(), ConstVectorView::sum(), and TRE05O2AbsModel().

Referenced by abs_xsec_per_speciesAddConts().