Class : ParticleOnTorusWithSpin
~ParticleOnTorusWithSpin :
prototype: virtual ~ParticleOnTorusWithSpin ()
description:virtual destructor
GetParticleStatistic :
prototype: virtual int GetParticleStatistic ()
description:get the particle statistic
input parameters:
return value: particle statistic
SumAudAu :
prototype: virtual int SumAudAu (int , double& coefficient )
description:apply sum_m au^+_m au_m operator to a given state
input parameters:
index = index of the state on which the operator has to be applied
coefficient = reference on the double where the multiplicative factor has to be stored
return value: index of the destination state
SumAddAd :
prototype: virtual int SumAddAd (int , double& coefficient )
description:apply sum_m ad^+_m ad_m operator to a given state
input parameters:
index = index of the state on which the operator has to be applied
coefficient = reference on the double where the multiplicative factor has to be stored
return value: index of the destination state
AudAu :
prototype: virtual int AudAu (int , int , double& coefficient )
description:apply au^+_m au_m operator to a given state
input parameters:
index = index of the state on which the operator has to be applied
m = index for density operator
coefficient = reference on the double where the multiplicative factor has to be stored
return value: index of the destination state
AddAd :
prototype: virtual int AddAd (int , int , double& coefficient )
description:apply ad^+_m ad_m operator to a given state
input parameters:
index = index of the state on which the operator has to be applied
m = index for density operator
coefficient = reference on the double where the multiplicative factor has to be stored
return value: index of the destination state
AudAudAuAu :
prototype: virtual int AudAudAuAu (int , int , int , int , int , double& coefficient )
description:apply au^+_m1 au^+_m2 au_n1 au_n2 operator to a given state (with m1+m2=n1+n2[MaxMomentum])
input parameters:
index = index of the state on which the operator has to be applied
m1 = first index for creation operator
m2 = second index for creation operator
n1 = first index for annihilation operator
n2 = second index for annihilation operator
coefficient = reference on the double where the multiplicative factor has to be stored
return value: index of the destination state
AddAddAdAd :
prototype: virtual int AddAddAdAd (int , int , int , int , int , double& coefficient )
description:apply ad^+_m1 ad^+_m2 ad_n1 ad_n2 operator to a given state (with m1+m2=n1+n2[MaxMomentum])
input parameters:
index = index of the state on which the operator has to be applied
m1 = first index for creation operator
m2 = second index for creation operator
n1 = first index for annihilation operator
n2 = second index for annihilation operator
coefficient = reference on the double where the multiplicative factor has to be stored
return value: index of the destination state
AddAddAuAu :
prototype: virtual int AddAddAuAu (int , int , int , int , int , double& coefficient )
description:apply ad^+_m1 ad^+_m2 au_n1 au_n2 operator to a given state (with m1+m2=n1+n2[MaxMomentum])
input parameters:
index = index of the state on which the operator has to be applied
m1 = first index for creation operator
m2 = second index for creation operator
n1 = first index for annihilation operator
n2 = second index for annihilation operator
coefficient = reference on the double where the multiplicative factor has to be stored
return value: index of the destination state
AudAudAdAd :
prototype: virtual int AudAudAdAd (int , int , int , int , int , double& coefficient )
description:apply au^+_m1 au^+_m2 ad_n1 ad_n2 operator to a given state (with m1+m2=n1+n2[MaxMomentum])
input parameters:
index = index of the state on which the operator has to be applied
m1 = first index for creation operator
m2 = second index for creation operator
n1 = first index for annihilation operator
n2 = second index for annihilation operator
coefficient = reference on the double where the multiplicative factor has to be stored
return value: index of the destination state
AudAudAuAd :
prototype: virtual int AudAudAuAd (int , int , int , int , int , double& coefficient )
description:apply au^+_m1 au^+_m2 au_n1 ad_n2 operator to a given state (with m1+m2=n1+n2[MaxMomentum])
input parameters:
index = index of the state on which the operator has to be applied
m1 = first index for creation operator
m2 = second index for creation operator
n1 = first index for annihilation operator
n2 = second index for annihilation operator
coefficient = reference on the double where the multiplicative factor has to be stored
return value: index of the destination state
AddAudAuAu :
prototype: virtual int AddAudAuAu (int , int , int , int , int , double& coefficient )
description:apply ad^+_m1 au^+_m2 au_n1 au_n2 operator to a given state (with m1+m2=n1+n2[MaxMomentum])
input parameters:
index = index of the state on which the operator has to be applied
m1 = first index for creation operator
m2 = second index for creation operator
n1 = first index for annihilation operator
n2 = second index for annihilation operator
coefficient = reference on the double where the multiplicative factor has to be stored
return value: index of the destination state
AddAddAdAu :
prototype: virtual int AddAddAdAu (int , int , int , int , int , double& coefficient )
description:apply ad^+_m1 ad^+_m2 ad_n1 au_n2 operator to a given state (with m1+m2=n1+n2[MaxMomentum])
input parameters:
index = index of the state on which the operator has to be applied
m1 = first index for creation operator
m2 = second index for creation operator
n1 = first index for annihilation operator
n2 = second index for annihilation operator
coefficient = reference on the double where the multiplicative factor has to be stored
return value: index of the destination state
AudAddAdAd :
prototype: virtual int AudAddAdAd (int , int , int , int , int , double& coefficient )
description:apply au^+_m1 ad^+_m2 ad_n1 ad_n2 operator to a given state (with m1+m2=n1+n2[MaxMomentum])
input parameters:
index = index of the state on which the operator has to be applied
m1 = first index for creation operator
m2 = second index for creation operator
n1 = first index for annihilation operator
n2 = second index for annihilation operator
coefficient = reference on the double where the multiplicative factor has to be stored
return value: index of the destination state
AudAddAuAd :
prototype: virtual int AudAddAuAd (int , int , int , int , int , double& coefficient )
description:apply au^+_m1 ad^+_m2 au_n1 ad_n2 operator to a given state (with m1+m2=n1+n2[MaxMomentum])
input parameters:
index = index of the state on which the operator has to be applied
m1 = first index for creation operator
m2 = second index for creation operator
n1 = first index for annihilation operator
n2 = second index for annihilation operator
coefficient = reference on the double where the multiplicative factor has to be stored
return value: index of the destination state
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