Second Order QCD Corrections,
Electron Positron Annihilation

About the expressions:

The projections are summed over all final state polarizations, whereas the matrixelements are not.

P_ij=(p_i+p_j)²,
          (i,j=1,2,3,4)

          P_i5=(p₅-p_i)²,
          (i=1,2,3,4)

          Q² = s = p₅²

The scalar integrals B0, C0, D0 are defined Appendix D of T. Matsuura, S.C. van der Marck, and W.L. van Neerven, Nucl. Phys. B319 (1989) 570.

C_a = 3

             C_f = 4/3

[e_q] equals the charge of the detected quark.
[e_Q] equals the charge of the quark which is not detected.
The axial couplings [a_q] and [a_Q] are similar.

n = 4 + eps

fi(i,j) = 1/(i + j * eps/2)

 $p$ ₅ = p₁ + p₂ + p₃,
	  s = p₅² > 0,
	  p₁² = p₂² =
	  p₃² = 0

First Order:

V --> q q g

, (Matrix element, Asymmetry matrix element, polarized matrix element)

Second Order:

V --> q q g

, (F_L,q, F_T,q, F_3,q, G_1,q, F_L,g, F_T,g, G_1,g, Matrix element, Asymmetry matrix element, polarized matrix element)

 $p$ ₅ = p₁ + p₂ + p₃ + p₄,
	  s = p₅² > 0,
	  p₁² = p₂² =
	  p₃² = p₄² = 0

Second Order:

V --> q q g g

, (F_L,q, F_T,q, F_3,q, G_1,q, F_L,g, F_T,g, G_1,g, Matrix element, Asymmetry matrix element, Polarized matrix element)

Second Order:

V --> q q q q

, (F_L, F_T, F₃, G₁)

Matrix elements (non-identical quarks, extra contributions due to identical quarks).

Asymmetry matrix elements (non-identical quarks, extra contributions due to identical quarks).

Polarized matrix elements (non-identical quarks, extra contributions due to identical quarks).

Last modified: Wed Jul 2 20:20:07 MET DST

Second Order QCD Corrections, Electron Positron Annihilation

Second Order QCD Corrections,
Electron Positron Annihilation