Class : XYReflexionSymmetricPeriodic3DOneParticle
XYReflexionSymmetricPeriodic3DOneParticle :
prototype: XYReflexionSymmetricPeriodic3DOneParticle ()
description:default constructor
XYReflexionSymmetricPeriodic3DOneParticle :
prototype: XYReflexionSymmetricPeriodic3DOneParticle (int , int , int , int lowZ )
description:constructor
input parameters:
maxX = maximal wave function basis dimension in the x direction
maxY = maximal wave function basis dimension in the y direction
nbrStateZ = wave function basis dimension in the z direction
lowZ = lower bound of basis dimension in the z direction
XYReflexionSymmetricPeriodic3DOneParticle :
prototype: XYReflexionSymmetricPeriodic3DOneParticle (const XYReflexionSymmetricPeriodic3DOneParticle& space )
description:copy constructor
input parameters:
space = reference on Hilbert space to copy
XYReflexionSymmetricPeriodic3DOneParticle :
prototype: ~ XYReflexionSymmetricPeriodic3DOneParticle ()
description:destructor
operator = :
prototype: XYReflexionSymmetricPeriodic3DOneParticle& operator = (const XYReflexionSymmetricPeriodic3DOneParticle& space )
description:clone Hilbert space (without duplicating datas)
input parameters:
return value: pointer to cloned Hilbert space
AbstractHilbertSpace* Clone();
assignement
input parameters:
space = reference on Hilbert space to assign
return value: reference on current Hilbert space
GetNbrSinusStateX :
prototype: virtual int GetNbrSinusStateX ()
description:get sinus wave function basis dimension in the x direction
input parameters:
return value: wave function basis dimension in the x direction
GetNbrCosinusStateX :
prototype: virtual int GetNbrCosinusStateX ()
description:get cosinus wave function basis dimension in the x direction
input parameters:
return value: wave function basis dimension in the x direction
GetNbrSinusStateY :
prototype: virtual int GetNbrSinusStateY ()
description:get sinus wave function basis dimension in the y direction
input parameters:
return value: wave function basis dimension in the y direction
GetNbrCosinusStateY :
prototype: virtual int GetNbrCosinusStateY ()
description:get cossinus wave function basis dimension in the y direction
input parameters:
return value: wave function basis dimension in the y direction
PrintState :
prototype: ostream& PrintState (ostream& , int state )
description:return a list of all possible quantum numbers
input parameters:
return value: pointer to corresponding quantum number
List GetQuantumNumbers ();
return quantum number associated to a given state
input parameters:
index = index of the state
return value: pointer to corresponding quantum number
AbstractQuantumNumber* GetQuantumNumber (int index);
extract subspace with a fixed quantum number
input parameters:
q = quantum number value
converter = reference on subspace-space converter to use
return value: pointer to the new subspace
AbstractHilbertSpace* ExtractSubspace (AbstractQuantumNumber& q, SubspaceSpaceConverter& converter);
print a given State
input parameters:
Str = reference on current output stream
state = ID of the state to print
return value: reference on current output stream
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