KSS2Checks.nb

•'s, logs, non-CT polynomials and lowest order contributions on-mass-shell

Loop contribution:

$finLoops = ((Simplify /@ #) & /@ Collect[su2IsoscalarProj[endloops] /. _LeutwylerLambda -> 0 /. MomentaRules /. onshellrules /. gellmannOkubo /. toEtaRules /. _RenormalizationState -> Sequence[], {_Pair, _LeutwylerJBar, _Log, _CouplingConstant}]) // Simplify$

Wavefuntion-renormalized lowest order contribution:

$finPoly = finLoops + finTrees /. {_Log -> 0, _LeutwylerJBar -> 0, CouplingConstant[_[4], ___] -> 0} // Expand // Simplify$

1/(24 π^2 (f _ ϕ^(ó ))^3 (p _ 2^2 - (m _ K^(ó ))^2)) ((c _ 5^( ) ((m _ π^(ó ))^2 - (m _ K^(ó ))^2) (192 π^2 (f _ ϕ^(ó ))^2 + (m _ π^(ó ))^2 + 14 (m _ K^(ó ))^2 + 3 (m _ η^(ó ))^2 - 14 p _ 2^2 - 18 p _ 3^2) - 3 c _ 2^( ) (p _ 2^2 - (m _ K^(ó ))^2) (-3 (m _ π^(ó ))^2 + 2 (m _ K^(ó ))^2 + (m _ η^(ó ))^2)) !, _ 0^( ))

$finJBars = Collect[finLoops + finTrees - (finLoops + finTrees /. _LeutwylerJBar -> 0) /. {_Log -> 0, CouplingConstant[_[4], ___] -> 0} // Expand, {_LeutwylerJBar}] // Simplify$

$finJBarsKLM = Simplify /@ Collect[Expand[finJBars] /. JBarToKL /. cancelLogs /. gellmannOkubo /. {Log[l_] :> Log[l /. toEtaRules], K[l__] :> K[Sequence @@ ({l} /. toEtaRules)], LeutwylerJBar[l__] :> LeutwylerJBar[Sequence @@ ({l} /. toEtaRules)]}, {_LeutwylerJBar, _K}]$

$finLogs = (Simplify /@ (Collect[finLoops + finTrees - (finLoops + finTrees /. _Log -> 0) /. {_LeutwylerJBar -> 0, CouplingConstant[_[4], ___] -> 0} // Expand, {_Log}] /. gellmannOkubo)) /. Log[l_] :> Log[l /. toEtaRules]$

Converted by Mathematica (July 10, 2003)