yadism.coefficient_functions.light.n3lo package

Submodules

yadism.coefficient_functions.light.n3lo.common module

Some shorthand notations.

yadism.coefficient_functions.light.n3lo.xc2ns3p module

Note, the factor fl11 is not contributing to charged currents according to xcdiff3p.f. To generate c2nm3a,c2nm3c we follow xcdiff3p.f or the reference paper [DVMV16].

yadism.coefficient_functions.light.n3lo.xc2ns3p.c2nm3a_fl2(y, args)

yadism.coefficient_functions.light.n3lo.xc2ns3p.c2nm3c_fl2(y, args)

yadism.coefficient_functions.light.n3lo.xc2ns3p.c2np3a_fl2(y, args)

The math:fl_{2}: regular piece of the non singlet coefficient.

yadism.coefficient_functions.light.n3lo.xc2ns3p.c2np3c_fl2(y, args)

The math:fl_{2}: local piece of the non singlet coefficient.

yadism.coefficient_functions.light.n3lo.xc2ns3p.c2ns3b_fl2(y, args)

yadism.coefficient_functions.light.n3lo.xc2sg3p module

yadism.coefficient_functions.light.n3lo.xc2sg3p.c2g3a_fl11(y, args)

The math:fl_{11}: regular piece of the gluon coefficient.

yadism.coefficient_functions.light.n3lo.xc2sg3p.c2g3a_fl2(y, args)

The math:fl_{2}: regular piece of the gluon coefficient.

yadism.coefficient_functions.light.n3lo.xc2sg3p.c2g3c_fl2(y, args)

The math:fl_{2}: local piece of the gluon coefficient.

yadism.coefficient_functions.light.n3lo.xc2sg3p.c2s3a_fl11(y, args)

The math:fl_{11}: regular piece of the singlet coefficient.

yadism.coefficient_functions.light.n3lo.xc2sg3p.c2s3a_fl2(y, args)

The math:fl_{2}: regular piece of the singlet coefficient.

yadism.coefficient_functions.light.n3lo.xc2sg3p.c2s3c_fl11(y, args)

The math:fl_{11}: local piece of the Singlet coefficient.

yadism.coefficient_functions.light.n3lo.xc3ns3p module

Note that here the m refers to odd-N, but it actually corresponds to :math:` u + ar{ u}`. Vice versa for the minus combination. To generate c3np3a,c3np3c we follow xcdiff3p.f or the reference paper [DVMV16].

yadism.coefficient_functions.light.n3lo.xc3ns3p.c3nm3a(y, args)

yadism.coefficient_functions.light.n3lo.xc3ns3p.c3nm3c(y, args)

yadism.coefficient_functions.light.n3lo.xc3ns3p.c3np3a(y, args)

yadism.coefficient_functions.light.n3lo.xc3ns3p.c3np3c(y, args)

yadism.coefficient_functions.light.n3lo.xc3ns3p.c3ns3b(y, args)

yadism.coefficient_functions.light.n3lo.xc3ns3p.c3nsv3a(y, args)

yadism.coefficient_functions.light.n3lo.xcdiff3p module

Difference even N - odd N moments

yadism.coefficient_functions.light.n3lo.xcdiff3p.c2q3dfp(y, args)

yadism.coefficient_functions.light.n3lo.xcdiff3p.c2q3dfpc(y, args)

yadism.coefficient_functions.light.n3lo.xcdiff3p.c3q3dfp(y, args)

yadism.coefficient_functions.light.n3lo.xcdiff3p.c3q3dfpc(y, args)

yadism.coefficient_functions.light.n3lo.xcdiff3p.clq3dfp(y, args)

yadism.coefficient_functions.light.n3lo.xclns3p module

Note, the factor fl11 is disabled for charged currents according to xcdiff3p.f. To generate clnm3a_fl2,clnm3c_fl2 we follow xcdiff3p.f or the reference paper [DVMV16]

yadism.coefficient_functions.light.n3lo.xclns3p.clnm3a_fl2(y, args)

yadism.coefficient_functions.light.n3lo.xclns3p.clnm3c_fl2(y, args)

yadism.coefficient_functions.light.n3lo.xclns3p.clnp3a_fl2(y, args)

The math:fl_{2}: regular piece of the non singlet coefficient.

yadism.coefficient_functions.light.n3lo.xclns3p.clnp3c_fl2(y, args)

The math:fl_{2}: local piece of the non singlet coefficient.

yadism.coefficient_functions.light.n3lo.xclsg3p module

yadism.coefficient_functions.light.n3lo.xclsg3p.clg3a_fl11(y, args)

The math:fl_{11}: regular piece of the gluon coefficient.

yadism.coefficient_functions.light.n3lo.xclsg3p.clg3a_fl2(y, args)

The math:fl_{11}: regular piece of the gluon coefficient.

yadism.coefficient_functions.light.n3lo.xclsg3p.cls3a_fl11(y, args)

The math:fl_{11}: regular piece of the singlet coefficient.

yadism.coefficient_functions.light.n3lo.xclsg3p.cls3a_fl2(y, args)

The math:fl_{2}: regular piece of the singlet coefficient.