Internal cloudbox functions. More...

#include "matpackVII.h"
#include "interpolation.h"
#include "optproperties.h"
#include "array.h"
#include "gridded_fields.h"
#include "ppath.h"
#include "messages.h"

Functions
void	chk_if_pnd_zero_p (const Index &i_p, const GriddedField3 &pnd_field_raw, const String &pnd_field_file, const Verbosity &verbosity)
	Check whether particle number density is zero at a specified pressure level. More...

void	chk_if_pnd_zero_lat (const Index &i_lat, const GriddedField3 &pnd_field_raw, const String &pnd_field_file, const Verbosity &verbosity)
	Check whether particle number density is zero at a specified latitude. More...

void	chk_if_pnd_zero_lon (const Index &i_lon, const GriddedField3 &pnd_field_raw, const String &pnd_field_file, const Verbosity &verbosity)
	Check whether particle number density is zero at a specified longitude. More...

void	chk_pnd_data (const GriddedField3 &pnd_field_raw, const String &pnd_field_file, const Index &atmosphere_dim, const Verbosity &verbosity)
	Check particle number density files. More...

void	chk_pnd_raw_data (const ArrayOfGriddedField3 &pnd_field_raw, const String &pnd_field_file, const Index &atmosphere_dim, const Verbosity &verbosity)
	Check particle number density files (pnd_field_raw) More...

void	chk_pnd_field_raw_only_in_cloudbox (const Index &dim, const ArrayOfGriddedField3 &pnd_field_raw, ConstVectorView p_grid, ConstVectorView lat_grid, ConstVectorView lon_grid, const ArrayOfIndex &cloudbox_limits)
	chk_pnd_field_raw_only_in_cloudbox More...

void	chk_part_species (const ArrayOfString &part_species, const String &delim)
	Check validity of part_species setting. More...

void	chk_scattering_data (const ArrayOfSingleScatteringData &scat_data_array, const ArrayOfScatteringMetaData &scat_meta_array, const Verbosity &verbosity)
	Check scattering data general. More...

void	chk_scattering_meta_data (const ScatteringMetaData &scat_meta, const String &scat_meta_file, const Verbosity &verbosity)
	Check scattering data meta files. More...

void	chk_scat_data (const SingleScatteringData &scat_data_array, const String &scat_data_file, ConstVectorView f_grid, const Verbosity &verbosity)
	Check single scattering data files. More...

bool	is_gp_inside_cloudbox (const GridPos &gp_p, const GridPos &gp_lat, const GridPos &gp_lon, const ArrayOfIndex &cloudbox_limits, const bool &include_boundaries, const Index &atmosphere_dim=3)

bool	is_inside_cloudbox (const Ppath &ppath_step, const ArrayOfIndex &cloudbox_limits, const bool include_boundaries)

void	pnd_fieldMH97 (Tensor4View pnd_field, const Tensor3 &IWC_field, const Tensor3 &t_field, const ArrayOfIndex &limits, const ArrayOfScatteringMetaData &scat_meta_array, const Index &scat_data_start, const Index &npart, const String &part_string, const String &delim, const Verbosity &verbosity)

void	pnd_fieldH11 (Tensor4View pnd_field, const Tensor3 &IWC_field, const Tensor3 &t_field, const ArrayOfIndex &limits, const ArrayOfScatteringMetaData &scat_meta_array, const Index &scat_data_start, const Index &npart, const String &part_string, const String &delim, const Verbosity &verbosity)

void	pnd_fieldH13 (Tensor4View pnd_field, const Tensor3 &IWC_field, const Tensor3 &t_field, const ArrayOfIndex &limits, const ArrayOfScatteringMetaData &scat_meta_array, const Index &scat_data_start, const Index &npart, const String &part_string, const String &delim, const Verbosity &verbosity)

void	pnd_fieldH13Shape (Tensor4View pnd_field, const Tensor3 &IWC_field, const Tensor3 &t_field, const ArrayOfIndex &limits, const ArrayOfScatteringMetaData &scat_meta_array, const Index &scat_data_start, const Index &npart, const String &part_string, const String &delim, const Verbosity &verbosity)

void	pnd_fieldF07TR (Tensor4View pnd_field, const Tensor3 &SWC_field, const Tensor3 &t_field, const ArrayOfIndex &limits, const ArrayOfScatteringMetaData &scat_meta_array, const Index &scat_data_start, const Index &npart, const String &part_string, const String &delim, const Verbosity &verbosity)

void	pnd_fieldF07ML (Tensor4View pnd_field, const Tensor3 &SWC_field, const Tensor3 &t_field, const ArrayOfIndex &limits, const ArrayOfScatteringMetaData &scat_meta_array, const Index &scat_data_start, const Index &npart, const String &part_string, const String &delim, const Verbosity &verbosity)

void	pnd_fieldMGD_LWC (Tensor4View pnd_field, const Tensor3 &LWC_field, const ArrayOfIndex &limits, const ArrayOfScatteringMetaData &scat_meta_array, const Index &scat_data_start, const Index &npart, const String &part_string, const String &delim, const Verbosity &verbosity)

void	pnd_fieldMGD_IWC (Tensor4View pnd_field, const Tensor3 &IWC_field, const ArrayOfIndex &limits, const ArrayOfScatteringMetaData &scat_meta_array, const Index &scat_data_start, const Index &npart, const String &part_string, const String &delim, const Verbosity &verbosity)

void	pnd_fieldGM58 (Tensor4View pnd_field, const Tensor3 &PR_field, const ArrayOfIndex &limits, const ArrayOfScatteringMetaData &scat_meta_array, const Index &scat_data_start, const Index &npart, const String &part_string, const String &delim, const Verbosity &verbosity)

void	pnd_fieldSS70 (Tensor4View pnd_field, const Tensor3 &PR_field, const ArrayOfIndex &limits, const ArrayOfScatteringMetaData &scat_meta_array, const Index &scat_data_start, const Index &npart, const String &part_string, const String &delim, const Verbosity &verbosity)

void	pnd_fieldMP48 (Tensor4View pnd_field, const Tensor3 &PR_field, const ArrayOfIndex &limits, const ArrayOfScatteringMetaData &scat_meta_array, const Index &scat_data_start, const Index &npart, const String &part_string, const String &delim, const Verbosity &verbosity)

void	pnd_fieldH98 (Tensor4View pnd_field, const Tensor3 &LWC_field, const ArrayOfIndex &limits, const ArrayOfScatteringMetaData &scat_meta_array, const Index &scat_data_start, const Index &npart, const String &part_string, const String &delim, const Verbosity &verbosity)

Numeric	IWCtopnd_MH97 (const Numeric iwc, Numeric dm, const Numeric t, const Numeric density, const bool noisy)

Numeric	IWCtopnd_H11 (const Numeric d, const Numeric t)

Numeric	IWCtopnd_H13 (const Numeric d, const Numeric t)

Numeric	IWCtopnd_H13Shape (const Numeric d, const Numeric t)

Numeric	area_ratioH13 (const Numeric d, const Numeric t)

Numeric	IWCtopnd_F07TR (const Numeric d, const Numeric t, const Numeric swc, const Numeric alpha, const Numeric beta)

Numeric	IWCtopnd_F07ML (const Numeric d, const Numeric t, const Numeric swc, const Numeric alpha, const Numeric beta)

Numeric	LWCtopnd (const Numeric lwc, const Numeric density, const Numeric r)

Numeric	LWCtopnd2 (const Numeric r)

Numeric	LWCtopnd_MGD_LWC (const Numeric d, const Numeric rho, const Numeric lwc)

Numeric	IWCtopnd_MGD_IWC (const Numeric d, const Numeric rho, const Numeric iwc)

Numeric	PRtopnd_MP48 (const Numeric R, const Numeric D)

void	scale_pnd (Vector &w, const Vector &x, const Vector &y)

void	chk_pndsum (Vector &pnd, const Numeric xwc, const Vector &vol, const Vector &density, const Index &p, const Index &lat, const Index &lon, const String &part_type, const Verbosity &verbosity)

void	scale_H11 (Vector &pnd, const Numeric xwc, const Vector &density, const Vector &vol)

void	scale_H13 (Vector &pnd, const Numeric xwc, const Vector &density, const Vector &vol)

void	chk_massdensity_field (bool &x, const Index &dim, const Tensor3 &massdensity, const Vector &p_grid, const Vector &lat_grid, const Vector &lon_grid)
	Check whether hydromet grid size is equal to atmospheric grid size and if hydromet profile is zero (no cloud) in each grid point. More...

void	parse_partfield_name (String &partfield_name, const String &part_string, const String &delim)

void	parse_psd_param (String &psd_param, const String &part_string, const String &delim)

void	parse_part_material (String &part_material, const String &part_string, const String &delim)

void	parse_part_size (Numeric &sizemin, Numeric &sizemax, const String &part_string, const String &delim)

Detailed Description

Internal cloudbox functions.

Author: Claudia Emde claud.nosp@m.ia.e.nosp@m.mde@d.nosp@m.lr.d.nosp@m.e

Date: Thu May 23 14:34:05 2002

Definition in file cloudbox.h.

Function Documentation

◆ area_ratioH13()

Numeric area_ratioH13	(	const Numeric	d,
		const Numeric	t
	)

Calculates area ratio from the temperature and maximum diameter using H13 parametrization. Each diameter of the scattering particles is a node in the aspect ratio distribution. One call of this function calculates one aspect ratio.

Returns: dN particle number density per diameter interval [#/m3/m]

Parameters

d	maximum diameter of scattering particle [m]
t	atmospheric temperature [K]

Author: Johan Strandgren

Date: 2013-08-26

Definition at line 3078 of file cloudbox.cc.

References beta.

Referenced by dN_Ar_H13(), and pnd_fieldH13Shape().

◆ chk_if_pnd_zero_lat()

void chk_if_pnd_zero_lat	(	const Index &	i_lat,
		const GriddedField3 &	pnd_field_raw,
		const String &	pnd_field_file,
		const Verbosity &	verbosity
	)

Check whether particle number density is zero at a specified latitude.

Parameters

i_lat	Latitude index
pnd_field_raw	Particle number density data
pnd_field_file	pnd field filename

Author: Claudia Emde

Date: 2005-05-09

Definition at line 193 of file cloudbox.cc.

References CREATE_OUT1, GriddedField3::data, GriddedField::get_numeric_grid(), GFIELD3_LAT_GRID, GFIELD3_LON_GRID, GFIELD3_P_GRID, and ConstVectorView::nelem().

◆ chk_if_pnd_zero_lon()

void chk_if_pnd_zero_lon	(	const Index &	i_lon,
		const GriddedField3 &	pnd_field_raw,
		const String &	pnd_field_file,
		const Verbosity &	verbosity
	)

Check whether particle number density is zero at a specified longitude.

Parameters

i_lon	Latitude index
pnd_field_raw	Particle number density data
pnd_field_file	pnd field filename

Author: Claudia Emde

Date: 2005-05-09

Definition at line 241 of file cloudbox.cc.

References CREATE_OUT1, GriddedField3::data, GriddedField::get_numeric_grid(), GFIELD3_LAT_GRID, GFIELD3_LON_GRID, GFIELD3_P_GRID, and ConstVectorView::nelem().

◆ chk_if_pnd_zero_p()

void chk_if_pnd_zero_p	(	const Index &	i_p,
		const GriddedField3 &	pnd_field_raw,
		const String &	pnd_field_file,
		const Verbosity &	verbosity
	)

Check whether particle number density is zero at a specified pressure level.

Parameters

i_p	Pressure index
pnd_field_raw	Particle number density data
pnd_field_file	pnd field filename

Author: Claudia Emde

Date: 2005-05-09

Definition at line 145 of file cloudbox.cc.

References CREATE_OUT1, GriddedField3::data, GriddedField::get_numeric_grid(), GFIELD3_LAT_GRID, GFIELD3_LON_GRID, GFIELD3_P_GRID, and ConstVectorView::nelem().

◆ chk_massdensity_field()

void chk_massdensity_field	(	bool &	empty_flag,
		const Index &	dim,
		const Tensor3 &	massdensity,
		const Vector &	p_grid,
		const Vector &	lat_grid,
		const Vector &	lon_grid
	)

Check whether hydromet grid size is equal to atmospheric grid size and if hydromet profile is zero (no cloud) in each grid point.

Parameters

dim	atmosphere dimension
hydromet	hydrometeor grid in p, lat or lon dimension
p_grid	p grid of current atmosphere
lat_grid	lat grid of current atmosphere
lon_grid	lon grid of current atmosphere

Author: Daniel Kreyling

Date: 2011-01-27

Definition at line 70 of file cloudbox.cc.

References ConstTensor3View::ncols(), ConstVectorView::nelem(), ConstTensor3View::npages(), and ConstTensor3View::nrows().

Referenced by cloudboxSetAutomatically().

◆ chk_part_species()

void chk_part_species	(	const ArrayOfString &	part_species,
		const String &	delim
	)

Check validity of part_species setting.

This function checks, whether number of elements in each particle string is ok, and whether the entries for size limits are indeed numbers (or '*').

  \param part_species Array of particle species tags.

Parameters

delim Delimiter string of part_species elements.

Author: Jana Mendrok

Date: 2012-10-25

Definition at line 480 of file cloudbox.cc.

References Array< base >::nelem().

Referenced by ParticleSpeciesSet().

◆ chk_pnd_data()

void chk_pnd_data	(	const GriddedField3 &	pnd_field_raw,
		const String &	pnd_field_file,
		const Index &	atmosphere_dim,
		const Verbosity &	verbosity
	)

Check particle number density files.

This function checks, whether the particle number density file has the right atmospheric dimension (check for no non-zero pnd values outside cloudbox removed. done in pnd_fieldCalc).

Parameters

pnd_field_raw	pnd field data
pnd_field_file	pnd field filename
atmosphere_dim	Atmospheric dimension

Author: Claudia Emde

Date: 2005-04-05

Definition at line 294 of file cloudbox.cc.

References CREATE_OUT3, GriddedField::get_numeric_grid(), GFIELD3_LAT_GRID, GFIELD3_LON_GRID, GFIELD3_P_GRID, and ConstVectorView::nelem().

Referenced by chk_pnd_raw_data(), ParticleType2abs_speciesAdd(), and ParticleTypeAdd().

◆ chk_pnd_field_raw_only_in_cloudbox()

void chk_pnd_field_raw_only_in_cloudbox	(	const Index &	dim,
		const ArrayOfGriddedField3 &	pnd_field_raw,
		ConstVectorView	p_grid,
		ConstVectorView	lat_grid,
		ConstVectorView	lon_grid,
		const ArrayOfIndex &	cloudbox_limits
	)

chk_pnd_field_raw_only_in_cloudbox

Checks whether the pnd_field is zero outside the cloudbox. This is of a higher level than chk_pnd_data because it does not require any filename and because it works on all pnd_field_raw rather than just one element. Otherwise, it is mostly a new implementation of the same functionality.

Parameters

dim	The atmospheric dimensionality.
pnd_field_raw	All pnd_field_raw data.
p_grid	Pressure grid.
lat_grid	Latitude grid.
lon_grid	Longitude grid.
cloudbox_limits	The edges of the cloudbox.

Author: Gerrit Holl

Date: 2011-03-24

Definition at line 390 of file cloudbox.cc.

References GFIELD3_LAT_GRID, GFIELD3_LON_GRID, GFIELD3_P_GRID, and Array< base >::nelem().

Referenced by pnd_fieldCalc().

◆ chk_pnd_raw_data()

void chk_pnd_raw_data	(	const ArrayOfGriddedField3 &	pnd_field_raw,
		const String &	pnd_field_file,
		const Index &	atmosphere_dim,
		const Verbosity &	verbosity
	)

Check particle number density files (pnd_field_raw)

Parameters

pnd_field_raw	pnd field raw data (array for all particle types)
pnd_field_file	pnd field filename
atmosphere_dim	Atmospheric dimension

Author: Claudia Emde

Date: 2005-04-05

Definition at line 352 of file cloudbox.cc.

References chk_pnd_data(), CREATE_OUT3, and Array< base >::nelem().

Referenced by ParticleTypeAddAll().

◆ chk_pndsum()

void chk_pndsum	(	Vector &	pnd,
		const Numeric	xwc,
		const Vector &	vol,
		const Vector &	density,
		const Index &	p,
		const Index &	lat,
		const Index &	lon,
		const String &	partfield_name,
		const Verbosity &	verbosity
	)

Check sum of pnd vector against total mass density value. Deviation is calculated and used to adjust the output of vector pnd.

\param pnd particle number density [#/m3]
\param xwc atmospheric massdensity [kg/m3]
\param density scattering particle density [kg/m3]
\param vol scattering particle volume [m3]

Author: Daniel Kreyling

Date: 2010-12-15

Definition at line 3517 of file cloudbox.cc.

References CREATE_OUT1, CREATE_OUT2, ConstVectorView::nelem(), and ConstVectorView::sum().

Referenced by pnd_fieldF07ML(), pnd_fieldF07TR(), pnd_fieldGM58(), pnd_fieldH11(), pnd_fieldH13(), pnd_fieldH13Shape(), pnd_fieldH98(), pnd_fieldMGD_IWC(), pnd_fieldMGD_LWC(), pnd_fieldMH97(), pnd_fieldMP48(), pnd_fieldSS70(), and pndFromdN().

◆ chk_scat_data()

void chk_scat_data	(	const SingleScatteringData &	scat_data_array,
		const String &	scat_data_file,
		ConstVectorView	f_grid,
		const Verbosity &	verbosity
	)

Check single scattering data files.

This function checks, whether a datafile containing the single scattering properties of a particle type includes the required frequencies and temperatures and whether the angular grids are defined correctly. Furthermore it checks the self consistency of the data by checking the dimensions of pha_mat, ext_mat and abs_vec depending on the particle_type case.

Parameters

scat_data_array	Single scattering data
scat_data_file	Filename of the data to be checked.
f_grid	Frequency grid

Author: Claudia Emde

Date: 2005-04-04

Definition at line 605 of file cloudbox.cc.

References SingleScatteringData::aa_grid, SingleScatteringData::abs_vec_data, chk_interpolation_grids(), chk_size(), CREATE_OUT2, SingleScatteringData::ext_mat_data, SingleScatteringData::f_grid, last(), ConstVectorView::nelem(), SingleScatteringData::particle_type, PARTICLE_TYPE_GENERAL, PARTICLE_TYPE_HORIZ_AL, PARTICLE_TYPE_MACROS_ISO, PARTICLE_TYPE_SPHERICAL, SingleScatteringData::pha_mat_data, SingleScatteringData::T_grid, and SingleScatteringData::za_grid.

Referenced by ParticleType2abs_speciesAdd(), ParticleTypeAdd(), ParticleTypeAddAll(), and ScatteringParticleTypeAndMetaRead().

◆ chk_scattering_data()

void chk_scattering_data	(	const ArrayOfSingleScatteringData &	scat_data_array,
		const ArrayOfScatteringMetaData &	scat_meta_array,
		const Verbosity &
	)

Check scattering data general.

FIXME

Parameters

scat_data_array	Array of single scattering data
scat_meta_array	Array of scattering meta data

Author: Daniel Kreyling

Date: 2010-12-02

Definition at line 541 of file cloudbox.cc.

References Array< base >::nelem().

Referenced by ScatteringParticleTypeAndMetaRead().

◆ chk_scattering_meta_data()

void chk_scattering_meta_data	(	const ScatteringMetaData &	scat_meta,
		const String &	scat_meta_file,
		const Verbosity &	verbosity
	)

Check scattering data meta files.

FIXME

Parameters

scat_meta	scattering meta data
scat_meta_file	filename of the data to be checked

Author: Daniel Kreyling

Date: 2010-12-02

Definition at line 567 of file cloudbox.cc.

References CREATE_OUT2.

Referenced by ScatteringParticleTypeAndMetaRead().

◆ is_gp_inside_cloudbox()

bool is_gp_inside_cloudbox	(	const GridPos &	gp_p,
		const GridPos &	gp_lat,
		const GridPos &	gp_lon,
		const ArrayOfIndex &	cloudbox_limits,
		const bool &	include_boundaries,
		const Index &	atmosphere_dim
	)

Checks, whether a gridpoint is inside the cloudbox.

Returns: true is returned if the point is inside the cloudbox.

Parameters

gp_p	pressure GridPos
gp_lat	latitude GridPos
gp_lon	longitude GridPos
cloudbox_limits	The limits of the cloudbox.
include_boundaries	boolean: determines whther or not points on the boundary are considered to be inside the cloudbox.

Author: Claudia Emde (rewritten by Cory Davis 2005-07-03)

Date: 2003-06-06

Definition at line 808 of file cloudbox.cc.

References fractional_gp().

Referenced by get_ppath_ext(), is_inside_cloudbox(), iy_auxFillParticleVariables(), mcPathTraceGeneral(), and mcPathTraceIPA().

◆ is_inside_cloudbox()

bool is_inside_cloudbox	(	const Ppath &	ppath_step,
		const ArrayOfIndex &	cloudbox_limits,
		const bool	include_boundaries
	)

Checks, whether the last point of a propagation path is inside the cloudbox.

Works only for 3D !!!

Returns: true is returned if the point is inside the cloudbox.

Parameters

ppath_step	Propagation path step.
cloudbox_limits	The limits of the cloudbox.
include_boundaries	boolean: determines whther or not points on the boundary are considered to be inside the cloudbox.

Author: Claudia Emde (rewritten by Cory Davis 2005-07-03)

Date: 2003-06-06

Definition at line 892 of file cloudbox.cc.

References Ppath::gp_lat, Ppath::gp_lon, Ppath::gp_p, is_gp_inside_cloudbox(), Array< base >::nelem(), and Ppath::np.

Referenced by cloud_ppath_update3D(), mcPathTraceGeneral(), and mcPathTraceIPA().

◆ IWCtopnd_F07ML()

Numeric IWCtopnd_F07ML	(	const Numeric	d,
		const Numeric	t,
		const Numeric	swc,
		const Numeric	alpha,
		const Numeric	beta
	)

Calculates particle size distribution using F07 parametrization for mid latitude. Each diameter of the scattering particles is a node in the distribution. One call of this function calculates one particle number density.

Returns: dN particle number density per diameter interval [#/m3/m]

Parameters

d	maximum diameter of scattering particle [m]
t	atmospheric temperature [K]
swc	snow water content [kg/m^3]
alpha	Factor for the mass-dimension (m=alpha*(Dmax/D0)^beta) relationship [kg]
beta	Exponent for the mass-dimension relationship [pure number]

Author: Manfred Brath

Date: 2014-11-14

Definition at line 3215 of file cloudbox.cc.

References beta, and q.

Referenced by dN_F07ML(), and pnd_fieldF07ML().

◆ IWCtopnd_F07TR()

Numeric IWCtopnd_F07TR	(	const Numeric	d,
		const Numeric	t,
		const Numeric	swc,
		const Numeric	alpha,
		const Numeric	beta
	)

Calculates particle size distribution using F07 parametrization for tropics. Each diameter of the scattering particles is a node in the distribution. One call of this function calculates one particle number density.

Returns: dN particle number density per diameter interval [#/m3/m]

Parameters

d	maximum diameter of scattering particle [m]
t	atmospheric temperature [K]
swc	snow water content [kg/m^3]
alpha	Factor for the mass-dimension (m=alpha*(Dmax/D0)^beta) relationship [kg]
beta	Exponent for the mass-dimension relationship [pure number]

Author: Manfred Brath

Date: 2014-11-14

Definition at line 3121 of file cloudbox.cc.

References beta, and q.

Referenced by dN_F07TR(), and pnd_fieldF07TR().

◆ IWCtopnd_H11()

Numeric IWCtopnd_H11	(	const Numeric	d,
		const Numeric	t
	)

Calculates particle size distribution using H11 parametrization. Each diameter of the scattering particles is a node in the distribution. One call of this function calculates one particle number density.

Returns: dN particle number density per diameter interval [#/m3/m]

Parameters

d	maximum diameter of scattering particle [m]
t	atmospheric temperature [K]

Author: Daniel Kreyling

Date: 2011-10-28

Definition at line 2921 of file cloudbox.cc.

Referenced by dN_H11(), and pnd_fieldH11().

◆ IWCtopnd_H13()

Numeric IWCtopnd_H13	(	const Numeric	d,
		const Numeric	t
	)

Calculates particle size distribution using H13 parametrization. Each diameter of the scattering particles is a node in the distribution. One call of this function calculates one particle number density.

Returns: dN particle number density per diameter interval [#/m3/m]

Parameters

d	maximum diameter of scattering particle [m]
t	atmospheric temperature [K]

Author: Johan Strandgren, Daniel Kreyling

Date: 2013-08-26

Definition at line 2972 of file cloudbox.cc.

Referenced by pnd_fieldH13().

◆ IWCtopnd_H13Shape()

Numeric IWCtopnd_H13Shape	(	const Numeric	d,
		const Numeric	t
	)

Calculates particle size distribution using H13 parametrization. Each diameter of the scattering particles is a node in the distribution. One call of this function calculates one particle number density.

Returns: dN particle number density per diameter interval [#/m3/m]

Parameters

d	maximum diameter of scattering particle [m]
t	atmospheric temperature [K]

Author: Johan Strandgren

Date: 2013-08-26

Definition at line 3025 of file cloudbox.cc.

Referenced by dN_Ar_H13(), and pnd_fieldH13Shape().

◆ IWCtopnd_MGD_IWC()

Numeric IWCtopnd_MGD_IWC	(	const Numeric	d,
		const Numeric	rho,
		const Numeric	iwc
	)

Calculates the particle number density field for Cloud ice according the modified gamma distribution for cloud ice inside Geer and Baordo (2014), see table A1 One call of this function calculates one particle number density. Assumptions are: density of particles is constant and particle shape is sphere.

Returns: dN particle number density per diameter interval [#/m3/m]

Parameters

d	volume equivalent diameter of scattering particle [m]
iwc	ice water content [kg/m^3]

Author: Manfred Brath

Date: 2014-11-28

Definition at line 3402 of file cloudbox.cc.

Referenced by dN_MGD_IWC(), and pnd_fieldMGD_IWC().

◆ IWCtopnd_MH97()

Numeric IWCtopnd_MH97	(	const Numeric	iwc,
		const Numeric	dm,
		const Numeric	t,
		const Numeric	density,
		const bool	noisy
	)

Calculates particle size distribution using MH97 parametrization. Each diameter of the scattering particles is a node in the distribution. One call of this function calculates one particle number density.

Returns: dN particle number density per diameter interval [#/m3*m]

Parameters

iwc	atmospheric ice water content [kg/m3]
dm	melted diameter of scattering particle [m]
t	atmospheric temperature [K]
density	of the scattering particle [kg/m3]
perturb	PSD parameters according to their error statistics?

Author: Daniel Kreyling

Date: 2010-12-06

Definition at line 2755 of file cloudbox.cc.

References gamma_func(), min, PI, ran_gaussian(), and Rng::seed().

Referenced by dN_MH97(), and pnd_fieldMH97().

◆ LWCtopnd()

Numeric LWCtopnd	(	const Numeric	lwc,
		const Numeric	density,
		const Numeric	r
	)

Calculates particle size distribution for liquid water clouds using a gamma parametrization by Hess et al., 1998 (continental stratus). Each radius of the scattering particles is a node in the distribution. One call of this function calculates one particle number density.

\return n particle number density per radius interval [#/m3*m]

\param lwc atm

ospheric liquid water content [kg/m3]

Parameters

r	radius of scattering particle [m]

Author: Daniel Kreyling

Date: 2010-12-16

Definition at line 3305 of file cloudbox.cc.

References gamma_func(), and PI.

Referenced by dN_H98(), and pnd_fieldH98().

◆ LWCtopnd2()

Numeric LWCtopnd2 ( const Numeric r )

Definition at line 3331 of file cloudbox.cc.

References gamma_func().

◆ LWCtopnd_MGD_LWC()

Numeric LWCtopnd_MGD_LWC	(	const Numeric	d,
		const Numeric	rho,
		const Numeric	lwc
	)

Calculates the particle number density field for Cloud liquid water according the modified gamma distribution for cloud water inside Geer and Baordo (2014), see table A1 One call of this function calculates one particle number density. Assumptions are: density of particles is constant and particle shape is sphere.

Returns: dN particle number density per diameter interval [#/m3/m]

Parameters

d	volume equivalent diameter of scattering particle [m]
lwc	liquid water content [kg/m^3]

Author: Manfred Brath

Date: 2014-11-28

Definition at line 3363 of file cloudbox.cc.

Referenced by dN_MGD_LWC(), and pnd_fieldMGD_LWC().

◆ parse_part_material()

void parse_part_material	(	String &	part_material,
		const String &	part_string,
		const String &	delim
	)

Splitting part_species string and parse type of particle (from ScattData array)

\param  part_type particle type (material, phase). 
\param  part_string containing infos about scattering particle calculations

Parameters

delim Delimiter string of part_species elements

Author: Jana Mendrok

Date: 2012-04-03

Definition at line 3793 of file cloudbox.cc.

References my_basic_string< charT >::split().

Referenced by pnd_fieldSetup(), and ScatteringParticlesSelect().

◆ parse_part_size()

void parse_part_size	(	Numeric &	sizemin,
		Numeric &	sizemax,
		const String &	part_string,
		const String &	delim
	)

Splitting part_species string and parse min and max particle radius

Parameters

sizemin	min scattering particle radius
sizemax	max scattering particle radius
part_string	containing infos about scattering particle calculations
delim	Delimiter string of part_species elements

Author: Daniel Kreyling

Date: 2011-02-21

Definition at line 3830 of file cloudbox.cc.

References Array< base >::nelem(), and my_basic_string< charT >::split().

Referenced by ScatteringParticlesSelect().

◆ parse_partfield_name()

void parse_partfield_name	(	String &	partfield_name,
		const String &	part_string,
		const String &	delim
	)

Splitting part_species string and parse type of massdensity_field

\param  partfield_name name of atmospheric particle field
\param  part_string containing infos about scattering particle calculations

Parameters

delim Delimiter string of part_species elements

Author: Daniel Kreyling

Date: 2011-02-21

Definition at line 3700 of file cloudbox.cc.

References my_basic_string< charT >::split().

Referenced by AtmFieldsFromCompact(), pnd_fieldF07ML(), pnd_fieldF07TR(), pnd_fieldGM58(), pnd_fieldH11(), pnd_fieldH13(), pnd_fieldH13Shape(), pnd_fieldH98(), pnd_fieldMGD_IWC(), pnd_fieldMGD_LWC(), pnd_fieldMH97(), pnd_fieldMP48(), pnd_fieldSetup(), pnd_fieldSS70(), and ScatteringParticlesSelect().

◆ parse_psd_param()

void parse_psd_param	(	String &	psd_param,
		const String &	part_string,
		const String &	delim
	)

Splitting part_species string and parse psd_param

Parameters

psd_param	particle size distribution parametrization
part_string	containing infos about scattering particle calculations
delim	Delimiter string of part_species elements

Author: Daniel Kreyling

Date: 2011-02-21

Definition at line 3749 of file cloudbox.cc.

References my_basic_string< charT >::split().

Referenced by pnd_fieldMH97(), and pnd_fieldSetup().

◆ pnd_fieldF07ML()

void pnd_fieldF07ML	(	Tensor4View	pnd_field,
		const Tensor3 &	SWC_field,
		const Tensor3 &	t_field,
		const ArrayOfIndex &	limits,
		const ArrayOfScatteringMetaData &	scat_meta_array,
		const Index &	scat_data_start,
		const Index &	npart,
		const String &	part_string,
		const String &	delim,
		const Verbosity &	verbosity
	)

Calculates the particle number density field for Field (2007) size distribution for mid latitude. For the estimation of the second moment the mass dimension relationship is estimated by regression from the meta data. To be used for snow. For this distribution the snow has to be as mass content.

Parameters

pnd_field	Particle number density field
SWC_field	(snow) mass content field [kg/m3]
t_field	atmospheric temperature [K] \param limits pnd_field boundaries (indices in p, lat, lon)
scat_meta_array	particle meta data for particles
scat_data_start	start index for particles handled by this distribution
npart	number of particles handled by this distribution
part_string	part_species tag for profile/distribution handled here
delim	Delimiter string of part_species elements

Author: Manfred Brath (parts of the function is based on pnd_H11 (of J. Mendrok & D. Kreyling))

Date: 2014-12-02

Definition at line 1674 of file cloudbox.cc.

References beta, chk_pndsum(), CREATE_OUT2, dmax, get_sorted_indexes(), IWCtopnd_F07ML(), linreg(), parse_partfield_name(), q, and scale_pnd().

Referenced by pnd_fieldSetup().

◆ pnd_fieldF07TR()

void pnd_fieldF07TR	(	Tensor4View	pnd_field,
		const Tensor3 &	SWC_field,
		const Tensor3 &	t_field,
		const ArrayOfIndex &	limits,
		const ArrayOfScatteringMetaData &	scat_meta_array,
		const Index &	scat_data_start,
		const Index &	npart,
		const String &	part_string,
		const String &	delim,
		const Verbosity &	verbosity
	)

Calculates the particle number density field for Field (2007) size distribution for tropics. For the estimation of the second moment the mass dimension relationship is estimated by regression from the meta data. To be used for snow. For this distribution the snow has to be as mass content.

Parameters

pnd_field	Particle number density field
SWC_field	(snow) mass content field [kg/m3]
t_field	atmospheric temperature [K] \param limits pnd_field boundaries (indices in p, lat, lon)
scat_meta_array	particle meta data for particles
scat_data_start	start index for particles handled by this distribution
npart	number of particles handled by this distribution
part_string	part_species tag for profile/distribution handled here
delim	Delimiter string of part_species elements

Author: Manfred Brath (parts of the function is based on pnd_H11 (of J. Mendrok & D. Kreyling))

Date: 2014-12-02

Definition at line 1517 of file cloudbox.cc.

References beta, chk_pndsum(), CREATE_OUT2, dmax, get_sorted_indexes(), IWCtopnd_F07TR(), linreg(), parse_partfield_name(), q, and scale_pnd().

Referenced by pnd_fieldSetup().

◆ pnd_fieldGM58()

void pnd_fieldGM58	(	Tensor4View	pnd_field,
		const Tensor3 &	PR_field,
		const ArrayOfIndex &	limits,
		const ArrayOfScatteringMetaData &	scat_meta_array,
		const Index &	scat_data_start,
		const Index &	npart,
		const String &	part_string,
		const String &	delim,
		const Verbosity &	verbosity
	)

Calculates the particle number density field for Gunn and Marshall (1958) size distribution. To be used for snow fall rates.

Parameters

pnd_field	Particle number density field
PR_field	precipitation rate field [kg/(m2*s)] \param limits pnd_field boundaries (indices in p, lat, lon)
scat_meta_array	particle meta data for particles
scat_data_start	start index for particles handled by this distribution
npart	number of particles handled by this distribution
part_string	part_species tag for profile/distribution handled here
delim	Delimiter string of part_species elements

Author: Manfred Brath (most of the function was taken by me from pnd_mp48 (of j. mendrok))

Date: 2014-10-20

Definition at line 2110 of file cloudbox.cc.

References chk_pndsum(), fac(), get_sorted_indexes(), ConstVectorView::nelem(), parse_partfield_name(), PI, and scale_pnd().

Referenced by pnd_fieldSetup().

◆ pnd_fieldH11()

void pnd_fieldH11	(	Tensor4View	pnd_field,
		const Tensor3 &	IWC_field,
		const Tensor3 &	t_field,
		const ArrayOfIndex &	limits,
		const ArrayOfScatteringMetaData &	scat_meta_array,
		const Index &	scat_data_start,
		const Index &	npart,
		const String &	part_string,
		const String &	delim,
		const Verbosity &	verbosity
	)

Calculates the particle number density field for Heymsfield (2011, personal comm.) size distribution. To be used for atmospheric ice, particularly cloud ice and snow.

Parameters

pnd_field	Particle number density field
IWC_field	mass content (cloud ice or snow) field [kg/m3]
t_field	atmospheric temperature [K] \param limits pnd_field boundaries (indices in p, lat, lon)
scat_meta_array	particle meta data for particles
scat_data_start	start index for particles handled by this distribution
npart	number of particles handled by this distribution
part_string	part_species tag for profile/distribution handled here
delim	Delimiter string of part_species elements

Author: Jana Mendrok, Daniel Kreyling

Date: 2012-04-05

Definition at line 1045 of file cloudbox.cc.

References chk_pndsum(), get_sorted_indexes(), IWCtopnd_H11(), ConstVectorView::nelem(), parse_partfield_name(), and scale_pnd().

Referenced by pnd_fieldSetup().

◆ pnd_fieldH13()

void pnd_fieldH13	(	Tensor4View	pnd_field,
		const Tensor3 &	IWC_field,
		const Tensor3 &	t_field,
		const ArrayOfIndex &	limits,
		const ArrayOfScatteringMetaData &	scat_meta_array,
		const Index &	scat_data_start,
		const Index &	npart,
		const String &	part_string,
		const String &	delim,
		const Verbosity &	verbosity
	)

Calculates the particle number density field for Heymsfield (2013, personal comm.) size distribution. To be used for atmospheric ice, particularly cloud ice and snow.

Parameters

pnd_field	Particle number density field
IWC_field	mass content (cloud ice or snow) field [kg/m3]
t_field	atmospheric temperature [K] \param limits pnd_field boundaries (indices in p, lat, lon)
scat_meta_array	particle meta data for particles
scat_data_start	start index for particles handled by this distribution
npart	number of particles handled by this distribution
part_string	part_species tag for profile/distribution handled here
delim	Delimiter string of part_species elements

Author: Johan Strandgren, Daniel Kreyling

Date: 2013-08-26

Definition at line 1165 of file cloudbox.cc.

References chk_pndsum(), get_sorted_indexes(), IWCtopnd_H13(), ConstVectorView::nelem(), parse_partfield_name(), and scale_pnd().

Referenced by pnd_fieldSetup().

◆ pnd_fieldH13Shape()

void pnd_fieldH13Shape	(	Tensor4View	pnd_field,
		const Tensor3 &	IWC_field,
		const Tensor3 &	t_field,
		const ArrayOfIndex &	limits,
		const ArrayOfScatteringMetaData &	scat_meta_array,
		const Index &	scat_data_start,
		const Index &	npart,
		const String &	part_string,
		const String &	delim,
		const Verbosity &	verbosity
	)

Calculates the particle number density field for Heymsfield (2013, personal comm.) size distribution. To be used for atmospheric ice, particularly cloud ice and snow.

Parameters

pnd_field	Particle number density field
IWC_field	mass content (cloud ice or snow) field [kg/m3]
t_field	atmospheric temperature [K] \param limits pnd_field boundaries (indices in p, lat, lon)
scat_meta_array	particle meta data for particles
scat_data_start	start index for particles handled by this distribution
npart	number of particles handled by this distribution
part_string	part_species tag for profile/distribution handled here
delim	Delimiter string of part_species elements

Author: Johan Strandgren

Date: 2013-08-26

Definition at line 1303 of file cloudbox.cc.

References abs, area_ratioH13(), VectorView::begin(), chk_pndsum(), CREATE_OUT1, VectorView::end(), get_sorted_indexes(), IWCtopnd_H13Shape(), ConstVectorView::nelem(), parse_partfield_name(), and scale_pnd().

Referenced by pnd_fieldSetup().

◆ pnd_fieldH98()

void pnd_fieldH98	(	Tensor4View	pnd_field,
		const Tensor3 &	LWC_field,
		const ArrayOfIndex &	limits,
		const ArrayOfScatteringMetaData &	scat_meta_array,
		const Index &	scat_data_start,
		const Index &	npart,
		const String &	part_string,
		const String &	delim,
		const Verbosity &	verbosity
	)

Calculates the particle number density field for Hess et al. (1998) size distribution, namely the continental stratus case. To be used for liquid clouds.

Parameters

pnd_field	Particle number density field
LWC_field	mass content (liquid water) field [kg/m3] \param limits pnd_field boundaries (indices in p, lat, lon)
scat_meta_array	particle meta data for particles
scat_data_start	start index for particles handled by this distribution
npart	number of particles handled by this distribution
part_string	part_species tag for profile/distribution handled here
delim	Delimiter string of part_species elements

Author: Jana Mendrok, Daniel Kreyling

Date: 2012-04-04

Definition at line 2638 of file cloudbox.cc.

References chk_pndsum(), get_sorted_indexes(), LWCtopnd(), ConstVectorView::nelem(), parse_partfield_name(), PI, and scale_pnd().

Referenced by pnd_fieldSetup().

◆ pnd_fieldMGD_IWC()

void pnd_fieldMGD_IWC	(	Tensor4View	pnd_field,
		const Tensor3 &	IWC_field,
		const ArrayOfIndex &	limits,
		const ArrayOfScatteringMetaData &	scat_meta_array,
		const Index &	scat_data_start,
		const Index &	npart,
		const String &	part_string,
		const String &	delim,
		const Verbosity &	verbosity
	)

Calculates the particle number density field for Cloud liquid water according to the modified gamma distribution for cloud water inside Geer and Baordo (2014), see table A1 Assumptions are: density of particles is constant and particle shape is sphere.

Parameters

pnd_field	Particle number density field
SWC_field	(snow) mass content field [kg/m3]
t_field	atmospheric temperature [K] \param limits pnd_field boundaries (indices in p, lat, lon)
scat_meta_array	particle meta data for particles
scat_data_start	start index for particles handled by this distribution
npart	number of particles handled by this distribution
part_string	part_species tag for profile/distribution handled here
delim	Delimiter string of part_species elements

Author: Manfred Brath (parts of the function is based on pnd_H11 (of J. Mendrok & D. Kreyling))

Date: 2014-12-02

Definition at line 1970 of file cloudbox.cc.

References chk_pndsum(), get_sorted_indexes(), IWCtopnd_MGD_IWC(), max, min, ConstVectorView::nelem(), parse_partfield_name(), PI, scale_pnd(), and ConstVectorView::sum().

Referenced by pnd_fieldSetup().

◆ pnd_fieldMGD_LWC()

void pnd_fieldMGD_LWC	(	Tensor4View	pnd_field,
		const Tensor3 &	LWC_field,
		const ArrayOfIndex &	limits,
		const ArrayOfScatteringMetaData &	scat_meta_array,
		const Index &	scat_data_start,
		const Index &	npart,
		const String &	part_string,
		const String &	delim,
		const Verbosity &	verbosity
	)

Calculates the particle number density field for Cloud liquid water according to the modified gamma distribution for cloud water inside Geer and Baordo (2014), see table A1 Assumptions are: density of particles is constant and particle shape is sphere.

Parameters

pnd_field	Particle number density field
SWC_field	(snow) mass content field [kg/m3]
t_field	atmospheric temperature [K] \param limits pnd_field boundaries (indices in p, lat, lon)
scat_meta_array	particle meta data for particles
scat_data_start	start index for particles handled by this distribution
npart	number of particles handled by this distribution
part_string	part_species tag for profile/distribution handled here
delim	Delimiter string of part_species elements

Author: Manfred Brath (parts of the function is based on pnd_H11 (of J. Mendrok & D. Kreyling))

Date: 2014-12-02

Definition at line 1821 of file cloudbox.cc.

References chk_pndsum(), CREATE_OUT1, get_sorted_indexes(), LWCtopnd_MGD_LWC(), max, min, ConstVectorView::nelem(), parse_partfield_name(), PI, scale_pnd(), and ConstVectorView::sum().

Referenced by pnd_fieldSetup().

◆ pnd_fieldMH97()

void pnd_fieldMH97	(	Tensor4View	pnd_field,
		const Tensor3 &	IWC_field,
		const Tensor3 &	t_field,
		const ArrayOfIndex &	limits,
		const ArrayOfScatteringMetaData &	scat_meta_array,
		const Index &	scat_data_start,
		const Index &	npart,
		const String &	part_string,
		const String &	delim,
		const Verbosity &	verbosity
	)

Calculates the particle number density field for McFarquhar and Heymsfield (1997) size distribution. To be used for cloud ice.

Returns: pnd_field Particle number density field

Parameters

IWC_field	mass content (cloud ice) field [kg/m3]
t_field	atmospheric temperature [K]
limits	pnd_field boundaries (indices in p, lat, lon)
scat_meta_array	particle meta data for particles
scat_data_start	start index for particles handled by this distribution
npart	number of particles handled by this distribution
part_string	part_species tag for profile/distribution handled here
delim	Delimiter string of part_species elements

Author: Jana Mendrok, Daniel Kreyling

Date: 2012-04-03

Definition at line 924 of file cloudbox.cc.

References chk_pndsum(), get_sorted_indexes(), IWCtopnd_MH97(), ConstVectorView::nelem(), parse_partfield_name(), parse_psd_param(), PI, and scale_pnd().

Referenced by pnd_fieldSetup().

◆ pnd_fieldMP48()

void pnd_fieldMP48	(	Tensor4View	pnd_field,
		const Tensor3 &	PR_field,
		const ArrayOfIndex &	limits,
		const ArrayOfScatteringMetaData &	scat_meta_array,
		const Index &	scat_data_start,
		const Index &	npart,
		const String &	part_string,
		const String &	delim,
		const Verbosity &	verbosity
	)

Calculates the particle number density field for Marshall and Palmer (1948) size distribution. To be used for precipitation, particularly rain.

Parameters

pnd_field	Particle number density field
PR_field	precipitation rate field [kg/(m2*s)] \param limits pnd_field boundaries (indices in p, lat, lon)
scat_meta_array	particle meta data for particles
scat_data_start	start index for particles handled by this distribution
npart	number of particles handled by this distribution
part_string	part_species tag for profile/distribution handled here
delim	Delimiter string of part_species elements

Author: Jana Mendrok

Date: 2012-04-04

Definition at line 2449 of file cloudbox.cc.

References abs, chk_pndsum(), fac(), get_sorted_indexes(), ConstVectorView::nelem(), parse_partfield_name(), PI, scale_pnd(), and ConstVectorView::sum().

Referenced by pnd_fieldSetup().

◆ pnd_fieldSS70()

void pnd_fieldSS70	(	Tensor4View	pnd_field,
		const Tensor3 &	PR_field,
		const ArrayOfIndex &	limits,
		const ArrayOfScatteringMetaData &	scat_meta_array,
		const Index &	scat_data_start,
		const Index &	npart,
		const String &	part_string,
		const String &	delim,
		const Verbosity &	verbosity
	)

Calculates the particle number density field for Sekhon and Srivastava (1970) size distribution. To be used for snow fall rates.

Parameters

pnd_field	Particle number density field
PR_field	precipitation rate field [kg/(m2*s)] \param limits pnd_field boundaries (indices in p, lat, lon)
scat_meta_array	particle meta data for particles
scat_data_start	start index for particles handled by this distribution
npart	number of particles handled by this distribution
part_string	part_species tag for profile/distribution handled here
delim	Delimiter string of part_species elements

Author: Manfred Brath (most of the function was taken from pnd_mp48 (of j. mendrok))

Date: 2014-10-22

Definition at line 2278 of file cloudbox.cc.

References chk_pndsum(), fac(), get_sorted_indexes(), ConstVectorView::nelem(), parse_partfield_name(), PI, and scale_pnd().

Referenced by pnd_fieldSetup().

◆ PRtopnd_MP48()

Numeric PRtopnd_MP48	(	const Numeric	R,
		const Numeric	D
	)

Calculates particle size distribution using MP48 parametrization for rain. Each diameter of the scattering particles is a node in the distribution. One call of this function calculates one particle number density.

Returns: dN particle number density per diameter interval [#/m3*m]

Parameters

R	precipitation rate [mm/hr]
D	volume equivalent diameter of scattering particle [m]

Author: Jana Mendrok

Date: 2012-04-04

Definition at line 3438 of file cloudbox.cc.

Referenced by dN_MP48().

◆ scale_H11()

void scale_H11	(	Vector &	pnd,
		const Numeric	xwc,
		const Vector &	density,
		const Vector &	vol
	)

The H11 PSD is scaled to the initial 'ice' or 'snow' massdensity, after the distribution has been evaluated. This function applies the scaling.

\param xwc atmospheric massdensity [kg/m3]
\param density scattering particle density [kg/m3]
\param vol scattering particle volume [m3]

Author: Daniel Kreyling

Date: 2011-10-31

Definition at line 3604 of file cloudbox.cc.

References ConstVectorView::nelem(), and ConstVectorView::sum().

◆ scale_H13()

void scale_H13	(	Vector &	pnd,
		const Numeric	xwc,
		const Vector &	density,
		const Vector &	vol
	)

The H13 PSD is scaled to the initial 'ice' or 'snow' massdensity, after the distribution has been evaluated. This function applies the scaling.

Parameters

xwc	atmospheric massdensity [kg/m3]
density	scattering particle density [kg/m3]
vol	scattering particle volume [m3]

Author: Johan Strandgren, Daniel Kreyling

Date: 2013-09-03

Definition at line 3652 of file cloudbox.cc.

References ConstVectorView::nelem(), and ConstVectorView::sum().

◆ scale_pnd()

void scale_pnd	(	Vector &	w,
		const Vector &	x,
		const Vector &	y
	)

Scaling pnd values by width of size bin. Bin width is determined from preceeding and following particle size. Vector y and x must be equal in size. Vector w holds the weights. Derived from trapezoid integration rule.

Parameters

w	weights
x	e.g. particle radius [m]
y	e.g. particle number density per radies interval [#/m3*m]

Author: Daniel Kreyling

Date: 2010-12-15

Definition at line 3469 of file cloudbox.cc.

References ConstVectorView::nelem(), and w().

Referenced by pnd_fieldF07ML(), pnd_fieldF07TR(), pnd_fieldGM58(), pnd_fieldH11(), pnd_fieldH13(), pnd_fieldH13Shape(), pnd_fieldH98(), pnd_fieldMGD_IWC(), pnd_fieldMGD_LWC(), pnd_fieldMH97(), pnd_fieldMP48(), pnd_fieldSS70(), and pndFromdN().

Functions

Detailed Description

Function Documentation

◆ area_ratioH13()

◆ chk_if_pnd_zero_lat()

◆ chk_if_pnd_zero_lon()

◆ chk_if_pnd_zero_p()

◆ chk_massdensity_field()

◆ chk_part_species()

◆ chk_pnd_data()

◆ chk_pnd_field_raw_only_in_cloudbox()

◆ chk_pnd_raw_data()

◆ chk_pndsum()

◆ chk_scat_data()

◆ chk_scattering_data()

◆ chk_scattering_meta_data()

◆ is_gp_inside_cloudbox()

◆ is_inside_cloudbox()

◆ IWCtopnd_F07ML()

◆ IWCtopnd_F07TR()

◆ IWCtopnd_H11()

◆ IWCtopnd_H13()

◆ IWCtopnd_H13Shape()

◆ IWCtopnd_MGD_IWC()

◆ IWCtopnd_MH97()

◆ LWCtopnd()

◆ LWCtopnd2()

◆ LWCtopnd_MGD_LWC()

◆ parse_part_material()

◆ parse_part_size()

◆ parse_partfield_name()

◆ parse_psd_param()

◆ pnd_fieldF07ML()

◆ pnd_fieldF07TR()

◆ pnd_fieldGM58()

◆ pnd_fieldH11()

◆ pnd_fieldH13()

◆ pnd_fieldH13Shape()

◆ pnd_fieldH98()

◆ pnd_fieldMGD_IWC()

◆ pnd_fieldMGD_LWC()

◆ pnd_fieldMH97()

◆ pnd_fieldMP48()

◆ pnd_fieldSS70()

◆ PRtopnd_MP48()

◆ scale_H11()

◆ scale_H13()

◆ scale_pnd()