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advanced radiative transfer for astrophysics
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CrystalForsteriteGrainComposition Class Reference

#include <CrystalForsteriteGrainComposition.hpp>

Inheritance diagram for CrystalForsteriteGrainComposition:
Inheritance graph
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Public Member Functions

double bulkDensity () const override
 
string name () const override
 
string resourceNameForEnthalpies () const override
 
string resourceNameForOpticalProps () const override
 
- Public Member Functions inherited from GrainComposition
virtual double bulkDensity () const =0
 
virtual string name () const =0
 
virtual string resourceNameForEnthalpies () const =0
 
virtual string resourceNameForMuellerMatrix () const
 
virtual string resourceNameForOpticalProps () const =0
 
virtual bool resourcesForSpheroidalEmission (bool &resource, double &interpol, string &tableName1, string &tableName2) const
 
- Public Member Functions inherited from SimulationItem
template<class T >
T * find (bool setup=true) const
 
template<class T >
T * interface (int levels=-999999, bool setup=true) const
 
virtual string itemName () const
 
void setup ()
 
string typeAndName () const
 
- Public Member Functions inherited from Item
 Item (const Item &)=delete
 
virtual ~Item ()
 
void addChild (Item *child)
 
const vector< Item * > & children () const
 
virtual void clearItemListProperty (const PropertyDef *property)
 
void destroyChild (Item *child)
 
virtual bool getBoolProperty (const PropertyDef *property) const
 
virtual vector< double > getDoubleListProperty (const PropertyDef *property) const
 
virtual double getDoubleProperty (const PropertyDef *property) const
 
virtual string getEnumProperty (const PropertyDef *property) const
 
virtual int getIntProperty (const PropertyDef *property) const
 
virtual vector< Item * > getItemListProperty (const PropertyDef *property) const
 
virtual ItemgetItemProperty (const PropertyDef *property) const
 
virtual string getStringProperty (const PropertyDef *property) const
 
int getUtilityProperty (string name) const
 
virtual void insertIntoItemListProperty (const PropertyDef *property, int index, Item *item)
 
Itemoperator= (const Item &)=delete
 
Itemparent () const
 
virtual void removeFromItemListProperty (const PropertyDef *property, int index)
 
virtual void setBoolProperty (const PropertyDef *property, bool value)
 
virtual void setDoubleListProperty (const PropertyDef *property, vector< double > value)
 
virtual void setDoubleProperty (const PropertyDef *property, double value)
 
virtual void setEnumProperty (const PropertyDef *property, string value)
 
virtual void setIntProperty (const PropertyDef *property, int value)
 
virtual void setItemProperty (const PropertyDef *property, Item *item)
 
virtual void setStringProperty (const PropertyDef *property, string value)
 
void setUtilityProperty (string name, int value)
 
virtual string type () const
 

Protected Member Functions

 CrystalForsteriteGrainComposition ()
 
- Protected Member Functions inherited from GrainComposition
 GrainComposition ()
 
- Protected Member Functions inherited from SimulationItem
 SimulationItem ()
 
virtual bool offersInterface (const std::type_info &interfaceTypeInfo) const
 
virtual void setupSelfAfter ()
 
virtual void setupSelfBefore ()
 
- Protected Member Functions inherited from Item
 Item ()
 

Private Types

using BaseType = GrainComposition
 
using ItemType = CrystalForsteriteGrainComposition
 

Friends

class ItemRegistry
 

Detailed Description

The CrystalForsteriteGrainComposition class represents the optical and calorimetric properties of crystalline silicate Mg2SiO4 grains, for which Michiel Min michiel.min.science@gmail.com prepared the data. The refractive index data was taken from Suto et al. 2006, using the lowest temperature 50K. Further data was obtained from the Jena group (Fabian 2001, Zeidler 2011) for UV to near-IR. Below 0.2 micron the results are extrapolated using theoretical formulas. The calculations were performed with DHS using \(f_\mathrm{max}=0.8\) (see Min et al. 2005). The calorimetric properties are taken from the data for astronomical silicates supplied with the DustEM code, described by Compiègne et al. 2011 (AA, 525, A103), downloaded from http://www.ias.u-psud.fr/DUSTEM/. The bulk mass density is set to the value of 3330 kg/m3 specified by Min.

Constructor & Destructor Documentation

◆ CrystalForsteriteGrainComposition()

CrystalForsteriteGrainComposition::CrystalForsteriteGrainComposition ( )
inlineprotected

Default constructor for concrete Item subclass CrystalForsteriteGrainComposition : "a crystalline Forsterite dust grain composition" .

Member Function Documentation

◆ bulkDensity()

double CrystalForsteriteGrainComposition::bulkDensity ( ) const
overridevirtual

This function returns the bulk mass density of this grain material.

Implements GrainComposition.

◆ name()

string CrystalForsteriteGrainComposition::name ( ) const
overridevirtual

This function returns a brief human-readable identifier for this grain composition.

Implements GrainComposition.

◆ resourceNameForEnthalpies()

string CrystalForsteriteGrainComposition::resourceNameForEnthalpies ( ) const
overridevirtual

This function returns the name of the stored table resource tabulating the specific enthalpies per unit volume as a function of temperature.

Implements GrainComposition.

◆ resourceNameForOpticalProps()

string CrystalForsteriteGrainComposition::resourceNameForOpticalProps ( ) const
overridevirtual

This function returns the name of the stored table resource tabulating the basic optical properties (absorption and scattering efficiencies and asymmetry parameter) as a function of wavelength and grain size.

Implements GrainComposition.


The documentation for this class was generated from the following file: