Class : AbstractQHEOnTorusWithMagneticTranslationsHamiltonian
~AbstractQHEOnTorusWithMagneticTranslationsHamiltonian :
prototype: virtual ~AbstractQHEOnTorusWithMagneticTranslationsHamiltonian ()
description:destructor
SetHilbertSpace :
prototype: virtual void SetHilbertSpace (AbstractHilbertSpace* hilbertSpace )
description:set Hilbert space
input parameters:
hilbertSpace = pointer to Hilbert space to use
GetHilbertSpace :
prototype: virtual AbstractHilbertSpace* GetHilbertSpace ()
description:get Hilbert space on which Hamiltonian acts
input parameters:
return value: pointer to used Hilbert space
GetHilbertSpaceDimension :
prototype: virtual int GetHilbertSpaceDimension ()
description:return dimension of Hilbert space where Hamiltonian acts
input parameters:
return value: corresponding matrix elementdimension
ShiftHamiltonian :
prototype: virtual void ShiftHamiltonian (double shift )
description:shift Hamiltonian from a given energy
input parameters:
shift = shift value
MatrixElement :
prototype: virtual Complex MatrixElement (RealVector& , RealVector& V2 )
description:evaluate matrix element
input parameters:
V1 = vector to left multiply with current matrix
V2 = vector to right multiply with current matrix
return value: corresponding matrix element
MatrixElement :
prototype: virtual Complex MatrixElement (ComplexVector& , ComplexVector& V2 )
description:evaluate matrix element
input parameters:
V1 = vector to left multiply with current matrix
V2 = vector to right multiply with current matrix
return value: corresponding matrix element
LowLevelMultiply :
prototype: virtual RealVector& LowLevelMultiply (RealVector& , RealVector& vDestination )
description:multiply a vector by the current hamiltonian and store result in another vector
low level function (no architecture optimization)
input parameters:
vSource = vector to be multiplied
vDestination = vector where result has to be stored
return value: reference on vectorwhere result has been stored
LowLevelMultiply :
prototype: virtual RealVector& LowLevelMultiply (RealVector& , RealVector& ,
int , int nbrComponent )
description:multiply a vector by the current hamiltonian for a given range of idinces
and store result in another vector, low level function (no architecture optimization)
input parameters:
vSource = vector to be multiplied
vDestination = vector where result has to be stored
firstComponent = index of the first component to evaluate
nbrComponent = number of components to evaluate
return value: reference on vector where result has been stored
LowLevelAddMultiply :
prototype: virtual RealVector& LowLevelAddMultiply (RealVector& , RealVector& vDestination )
description:multiply a vector by the current hamiltonian for a given range of indices
and add result to another vector, low level function (no architecture optimization)
input parameters:
vSource = vector to be multiplied
vDestination = vector at which result has to be added
return value: reference on vectorwhere result has been stored
LowLevelAddMultiply :
prototype: virtual RealVector& LowLevelAddMultiply (RealVector& , RealVector& ,
int , int nbrComponent )
description:multiply a vector by the current hamiltonian for a given range of indices
and add result to another vector, low level function (no architecture optimization)
input parameters:
vSource = vector to be multiplied
vDestination = vector at which result has to be added
firstComponent = index of the first component to evaluate
nbrComponent = number of components to evaluate
return value: reference on vector where result has been stored
LowLevelMultiply :
prototype: virtual ComplexVector& LowLevelMultiply (ComplexVector& , ComplexVector& vDestination )
description:multiply a vector by the current hamiltonian and store result in another vector
low level function (no architecture optimization)
input parameters:
vSource = vector to be multiplied
vDestination = vector where result has to be stored
return value: reference on vectorwhere result has been stored
LowLevelMultiply :
prototype: virtual ComplexVector& LowLevelMultiply (ComplexVector& , ComplexVector& ,
int , int nbrComponent )
description:multiply a vector by the current hamiltonian for a given range of indices
and store result in another vector, low level function (no architecture optimization)
input parameters:
vSource = vector to be multiplied
vDestination = vector where result has to be stored
firstComponent = index of the first component to evaluate
nbrComponent = number of components to evaluate
return value: reference on vector where result has been stored
LowLevelAddMultiply :
prototype: virtual ComplexVector& LowLevelAddMultiply (ComplexVector& , ComplexVector& vDestination )
description:multiply a vector by the current hamiltonian for a given range of indices
and add result to another vector, low level function (no architecture optimization)
input parameters:
vSource = vector to be multiplied
vDestination = vector at which result has to be added
return value: reference on vectorwhere result has been stored
LowLevelAddMultiply :
prototype: virtual ComplexVector& LowLevelAddMultiply (ComplexVector& , ComplexVector& ,
int , int nbrComponent )
description:multiply a vector by the current hamiltonian for a given range of indices
and add result to another vector, low level function (no architecture optimization)
input parameters:
vSource = vector to be multiplied
vDestination = vector at which result has to be added
firstComponent = index of the first component to evaluate
nbrComponent = number of components to evaluate
return value: reference on vector where result has been stored
LeftInteractionOperators :
prototype: virtual List LeftInteractionOperators ()
description:return a list of left interaction operators
input parameters:
return value: list of left interaction operators
RightInteractionOperators :
prototype: virtual List RightInteractionOperators ()
description:return a list of right interaction operators
input parameters:
return value: list of right interaction operators
SavePrecalculation :
prototype: virtual bool SavePrecalculation (char* fileName )
description:save precalculations in a file
input parameters:
fileName = pointer to a string containg the name of the file where precalculations have to be stored
return value: true if no error occurs
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