1.18/full-API/MaterialBySLDImpl_8h_source.html

 // ************************************************************************** //

 //

 //  BornAgain: simulate and fit scattering at grazing incidence

 //

 //! @file      Sample/Material/MaterialBySLDImpl.h

 //! @brief     Defines class MaterialBySLDImpl.

 //!

 //! @homepage  http://www.bornagainproject.org

 //! @license   GNU General Public License v3 or higher (see COPYING)

 //! @copyright Forschungszentrum Jülich GmbH 2018

 //! @authors   Scientific Computing Group at MLZ (see CITATION, AUTHORS)

 //

 // ************************************************************************** //


 #ifndef BORNAGAIN_CORE_MATERIAL_MATERIALBYSLDIMPL_H

 #define BORNAGAIN_CORE_MATERIAL_MATERIALBYSLDIMPL_H


 #include "Sample/Material/MagneticMaterialImpl.h"

 #include "Sample/Material/MaterialFactoryFuncs.h"


 //! Material implementation based on wavelength-independent data (valid for a range of wavelengths)

 //! @ingroup materials


 class MaterialBySLDImpl : public MagneticMaterialImpl

 {

 public:

     friend Material MaterialBySLD(const std::string& name, double sld_real, double sld_imag,

                                   kvector_t magnetization);


     virtual ~MaterialBySLDImpl() = default;


     //! Returns pointer to a copy of material

     MaterialBySLDImpl* clone() const override;


     //! Returns refractive index

     complex_t refractiveIndex(double wavelength) const override;


     //! Returns squared refractive index

     complex_t refractiveIndex2(double wavelength) const override;


     //! Returns underlying material data

     complex_t materialData() const override;


     //! Returns type of material implementation

     MATERIAL_TYPES typeID() const override { return MATERIAL_TYPES::MaterialBySLD; }


     //! Returns (\f$ \pi/\lambda^2 \f$ - sld), sld (in \f$nm^{-2}\f$) being the scattering length

     //! density

     complex_t scalarSubtrSLD(const WavevectorInfo& wavevectors) const override;


     //! Prints object data

     void print(std::ostream& ostr) const override;


 private:

     //! Constructs a wavelength-independent material with a given complex-valued

     //! scattering length density (SLD). SLD units are \f$ nm^{-2} \f$.

     MaterialBySLDImpl(const std::string& name, double sld_real, double sld_imag,

                       kvector_t magnetization);

     //! Returns the scattering length density

     complex_t sld() const;


     double m_sld_real; //!< complex-valued scattering length density

     double m_sld_imag; //!< imaginary part of scattering length density (negative by default)

 };


 #endif // BORNAGAIN_CORE_MATERIAL_MATERIALBYSLDIMPL_H

MATERIAL_TYPES
MATERIAL_TYPES
Definition: BaseMaterialImpl.h:25

MATERIAL_TYPES::MaterialBySLD
@ MaterialBySLD

complex_t
std::complex< double > complex_t
Definition: Complex.h:20

MagneticMaterialImpl.h
Defines magnetic material base implementation.

MaterialFactoryFuncs.h
Factory functions used to create material instances.

BasicVector3D< double >

MagneticMaterialImpl
Basic implementation for magnetized material.
Definition: MagneticMaterialImpl.h:29

MagneticMaterialImpl::magnetization
kvector_t magnetization() const override final
Returns the magnetization (in A/m)
Definition: MagneticMaterialImpl.cpp:62

MaterialBySLDImpl
Material implementation based on wavelength-independent data (valid for a range of wavelengths)
Definition: MaterialBySLDImpl.h:25

MaterialBySLDImpl::print
void print(std::ostream &ostr) const override
Prints object data.
Definition: MaterialBySLDImpl.cpp:64

MaterialBySLDImpl::sld
complex_t sld() const
Returns the scattering length density.
Definition: MaterialBySLDImpl.cpp:71

MaterialBySLDImpl::m_sld_imag
double m_sld_imag
imaginary part of scattering length density (negative by default)
Definition: MaterialBySLDImpl.h:63

MaterialBySLDImpl::typeID
MATERIAL_TYPES typeID() const override
Returns type of material implementation.
Definition: MaterialBySLDImpl.h:45

MaterialBySLDImpl::refractiveIndex2
complex_t refractiveIndex2(double wavelength) const override
Returns squared refractive index.
Definition: MaterialBySLDImpl.cpp:48

MaterialBySLDImpl::m_sld_real
double m_sld_real
complex-valued scattering length density
Definition: MaterialBySLDImpl.h:62

MaterialBySLDImpl::MaterialBySLD
friend Material MaterialBySLD(const std::string &name, double sld_real, double sld_imag, kvector_t magnetization)
Constructs a wavelength-independent material with a given complex-valued scattering length density (S...
Definition: MaterialFactoryFuncs.cpp:47

MaterialBySLDImpl::~MaterialBySLDImpl
virtual ~MaterialBySLDImpl()=default

MaterialBySLDImpl::scalarSubtrSLD
complex_t scalarSubtrSLD(const WavevectorInfo &wavevectors) const override
Returns (  - sld), sld (in ) being the scattering length density.
Definition: MaterialBySLDImpl.cpp:58

MaterialBySLDImpl::refractiveIndex
complex_t refractiveIndex(double wavelength) const override
Returns refractive index.
Definition: MaterialBySLDImpl.cpp:43

MaterialBySLDImpl::MaterialBySLDImpl
MaterialBySLDImpl(const std::string &name, double sld_real, double sld_imag, kvector_t magnetization)
Constructs a wavelength-independent material with a given complex-valued scattering length density (S...
Definition: MaterialBySLDImpl.cpp:29

MaterialBySLDImpl::materialData
complex_t materialData() const override
Returns underlying material data.
Definition: MaterialBySLDImpl.cpp:53

MaterialBySLDImpl::clone
MaterialBySLDImpl * clone() const override
Returns pointer to a copy of material.
Definition: MaterialBySLDImpl.cpp:38

Material
A wrapper for underlying material implementation.
Definition: Material.h:29

WavevectorInfo
Holds all wavevector information relevant for calculating form factors.
Definition: WavevectorInfo.h:26

anonymous_namespace{SlicedCylindersBuilder.cpp}::wavelength
const double wavelength(0.154)