\section{Processes included in MCFM} \label{MCFMprocs} \begin{table} \begin{center} \hspace*{-1.5cm} \begin{tabular}{|l|l|l|} \hline {\tt nproc} & $f(p_1)+f(p_2) \to \ldots $& Order \\ \hline % 1 & $ W^+(\to \nu(p_{3})+e^+(p_{4}))$ & NNLO \\ 2 & $ W^+(\to \nu(p_{3})+e^+(p_{4}))$ [EW+$\gamma(p_5)$] & NLO \\ 3 & $ W^+(\to \nu(p_{3})+e^+(p_{4}))$ [EW $\gamma$-induced + $q(p_5)$] & NLO \\ 6 & $ W^-(\to e^-(p_{3})+\bar{\nu}(p_{4}))$ & NNLO \\ 7 & $ W^-(\to e^-(p_{3})+\bar{\nu}(p_{4}))$ [EW+$\gamma(p_5)$] & NLO \\ 8 & $ W^-(\to e^-(p_{3})+\bar{\nu}(p_{4}))$ [EW $\gamma$-induced + $q(p_5)$] & NLO \\ \hline 11 & $ W^+(\to \nu(p_{3})+e^+(p_{4}))+f(p_{5})$ & NLO \\ 12 & $ W^+(\to \nu(p_{3})+e^+(p_{4}))+\bar{b}(p_{5})$ & NLO \\ 13 & $ W^+(\to \nu(p_{3})+e^+(p_{4}))+\bar{c}(p_{5})$ & NLO \\ 14 & $ W^+(\to \nu(p_{3})+e^+(p_{4}))+\bar{c}(p_{5}) [\mbox{massless}]$ & LO \\ 16 & $ W^-(\to e^-(p_{3})+\bar{\nu}(p_{4}))+f(p_{5})$ & NLO \\ 17 & $ W^-(\to e^-(p_{3})+\bar{\nu}(p_{4}))+b(p_{5})$ & NLO \\ 18 & $ W^-(\to e^-(p_{3})+\bar{\nu}(p_{4}))+c(p_{5})$ & NLO \\ 19 & $ W^-(\to e^-(p_{3})+\bar{\nu}(p_{4}))+c(p_{5}) [\mbox{massless}]$ & LO \\ \hline 20 & $ W^+(\to \nu(p_{3})+e^+(p_{4})) +b(p_{5})+\bar{b}(p_{6}) [\mbox{massive}]$ & NLO \\ 21 & $ W^+(\to \nu(p_{3})+e^+(p_{4})) +b(p_{5})+\bar{b}(p_{6})$ & NLO \\ 22 & $ W^+(\to \nu(p_{3})+e^+(p_{4})) +f(p_{5})+f(p_{6})$ & NLO \\ 23 & $ W^+(\to \nu(p_{3})+e^+(p_{4})) +f(p_{5})+f(p_{6})+f(p_{7})$ & LO \\ 24 & $ W^+(\to \nu(p_{3})+e^+(p_{4})) +b(p_{5})+\bar{b}(p_{6})+f(p_{7})$ & LO \\ 25 & $ W^-(\to e^-(p_{3})+\bar{\nu}(p_{4})) +b(p_{5})+\bar{b}(p_{6}) [\mbox{massive}]$ & NLO \\ 26 & $ W^-(\to e^-(p_{3})+\bar{\nu}(p_{4})) +b(p_{5})+\bar{b}(p_{6})$ & NLO \\ 27 & $ W^-(\to e^-(p_{3})+\bar{\nu}(p_{4})) +f(p_{5})+f(p_{6})$ & NLO \\ 28 & $ W^-(\to e^-(p_{3})+\bar{\nu}(p_{4})) +f(p_{5})+f(p_{6})+f(p_{7})$ & LO \\ 29 & $ W^-(\to e^-(p_{3})+\bar{\nu}(p_{4})) +b(p_{5})+\bar{b}(p_{6})+f(p_{7})$ & LO \\ \hline 31 & $ Z(\to e^-(p_{3})+e^+(p_{4}))$ & NNLO \\ 310 & $ Z(\to e^-(p_{3})+e^+(p_{4}))$ [photon induced] & LO \\ 32 & $ Z(\to 3\times(\nu(p_{3})+\bar{\nu}(p_{4})))$ & NNLO \\ 33 & $ Z(\to b(p_{3})+\bar{b}(p_{4}))$ & NLO \\ 34 & $ Z(\to 3\times(d(p_{5})+\bar{d}(p_{6})))$ & NLO \\ 35 & $ Z(\to 2\times(u(p_{5})+\bar{u}(p_{6})))$ & NLO \\ 36 & $ Z \to t(\to \nu(p_{3})+e^+(p_{4})+b(p_{5}))+\bar{t}(\to \bar{b}(p_{6})+e^-(p_{7})+\bar{\nu}(p_{8}))$ & LO \\ \hline 41 & $ Z(\to e^-(p_{3})+e^+(p_{4}))+f(p_{5})$ & NLO \\ 42 & $ Z_0(\to 3\times(\nu(p_{3})+\bar{\nu}(p_{4})))+f(p_{5})$ & NLO \\ 43 & $ Z(\to b(p_{3})+\bar{b}(p_{4}))+f(p_{5})$ & NLO \\ \hline 44 & $ Z(\to e^-(p_{3})+e^+(p_{4}))+f(p_{5})+f(p_{6})$ & NLO \\ 45 & $ Z(\to e^-(p_{3})+e^+(p_{4}))+f(p_{5})+f(p_{6})+f(p_{7})$ & LO \\ 46 & $ Z(\to 3\times(\nu(p_{3})+\bar{\nu}(p_{4}))+f(p_{5})+f(p_{6})$ & NLO \\ 47 & $ Z(\to 3\times(\nu(p_{3})+\bar{\nu}(p_{4}))+f(p_{5})+f(p_{6})+f(p_{7})$ & LO \\ \hline 50 & $ Z(\to e^-(p_{3})+e^+(p_{4}))+\bar{b}(p_{5})+b(p_{6}) [\mbox{massive}]$ & LO \\ 51 & $ Z(\to e^-(p_{3})+e^+(p_{4}))+b(p_{5})+\bar{b}(p_{6})$ & NLO \\ 52 & $ Z_0(\to 3\times(\nu(p_{3})+\bar{\nu}(p_{4})))+b(p_{5})+\bar{b}(p_{6})$ & NLO \\ 53 & $ Z(\to b(p_{3})+\bar{b}(p_{4}))+b(p_{5})+\bar{b}(p_{6})$ & NLO \\ 54 & $ Z(\to e^-(p_{3})+e^+(p_{4}))+b(p_{5})+\bar{b}(p_{6})+f(p_{7})$ & LO \\ 56 & $ Z(\to e^-(p_{3})+e^+(p_{4}))+c(p_{5})+\bar{c}(p_{6})$ & NLO \\ \hline \end{tabular} \end{center} \end{table} \newpage \begin{table} \begin{center} \begin{tabular}{|l|l|l|} \hline 61 & $ W^+(\to \nu(p_{3})+\mu^+(p_{4})) +W^-(\to e^-(p_{5})+\bar{\nu}(p_{6}))$ & NNLO \\ 62 & $ W^+(\to \nu(p_{3})+\mu^+(p_{4})) +W^-(\to q(p_{5})+\bar{q}(p_{6}))$ & NLO \\ 63 & $ W^+(\to \nu(p_{3})+\mu^+(p_{4})) +W^-(\to q(p_{5})+\bar{q}(p_{6}))[\mbox{rad.in.dk}]$ & NLO \\ 64 & $ W^-(\to e^-(p_{3})+\bar{\nu}(p_{4})) W^+(\to q(p_{5})+ \bar{q}(p_{6}))$ & NLO \\ 65 & $ W^-(\to e^-(p_{3})+\bar{\nu}(p_{4})) W^+(\to q(p_{5})+ \bar{q}(p_{6}))[\mbox{rad.in.dk}]$ & NLO \\ 66 & $ W^+(\to \nu(p_{3})+\mu^+(p_{4})) +W^-(\to e^-(p_{5})+\bar{\nu}(p_{6}))+f(p_{7})$ & LO \\ 69 & $ W^+(\to \nu(p_{3})+\mu^+(p_{4})) +W^-(\to e^-(p_{5})+\bar{\nu}(p_{6})) [\mbox{no pol}]$ & LO \\ \hline 71 & $ W^+(\to \nu(p_{3})+e^+(p_{4}))+Z(\to \mu^-(p_{5})+\mu^+(p_{6}))$ & NNLO \\ 711& $ W^+(\to \nu(p_{3})+e^+(p_{4}))+Z(\to e^-(p_{5})+e^+(p_{6}))$ & NNLO \\ 72 & $ W^+(\to \nu(p_{3})+e^+(p_{4}))+Z(\to 3\times(\nu_\mu(p_{5})+\bar{\nu}_\mu(p_{6})))$ & NLO \\ 73 & $ W^+(\to \nu(p_{3})+e^+(p_{4}))+Z(\to b(p_{5})+\bar{b}(p_{6}))$ & NLO \\ 74 & $ W^+(\to \nu(p_{3})+e^+(p_{4}))+Z(\to 3\times(d(p_{5})+\bar{d}(p_{6})))$ & NLO \\ 75 & $ W^+(\to \nu(p_{3})+e^+(p_{4}))+Z(\to 2\times(u(p_{5})+\bar{u}(p_{6})))$ & NLO \\ \hline 76 & $ W^-(\to e^-(p_{3})+\bar{\nu}(p_{4}))+Z(\to \mu^-(p_{5})+\mu^+(p_{6}))$ & NNLO \\ 761& $ W^-(\to e^-(p_{3})+\bar{\nu}(p_{4}))+Z(\to e^-(p_{5})+e^+(p_{6}))$ & NNLO \\ 77 & $ W^-(\to e^-(p_{3})+\bar{\nu}(p_{4}))+Z(\to 3\times(\nu_e(p_{5})+\bar{\nu}_e(p_{6})))$ & NLO \\ 78 & $ W^-(\to e^-(p_{3})+\bar{\nu}(p_{4}))+Z(\to b(p_{5})+\bar{b}(p_{6}))$ & NLO \\ 79 & $ W^-(\to e^-(p_{3})+\bar{\nu}(p_{4}))+Z(\to 3\times(d(p_{5})+\bar{d}(p_{6})))$ & NLO \\ 80 & $ W^-(\to e^-(p_{3})+\bar{\nu}(p_{4}))+Z(\to 2\times(u(p_{5})+\bar{u}(p_{6})))$ & NLO \\ \hline 81 & $ Z(\to e^-(p_{3})+e^+(p_{4})) + Z(\to \mu^-(p_{5})+\mu^+(p_{6}))$ & NNLO \\ 82 & $ Z(\to e^-(p_{3})+e^+(p_{4})) + Z(\to \nu_\mu(p_{5})+\bar{\nu}_\mu(p_{6}))$ & NNLO \\ 8211& $ Z(\to e^-(p_{3})+e^+(p_{4})) + Z(\to \nu_e(p_{5})+\bar{\nu}_e(p_{6}))$ [both $WW+ZZ$] & NNLO \\ 83 & $ Z(\to e^-(p_{3})+e^+(p_{4})) + Z(\to b(p_{5})+\bar{b}(p_{6}))$ & NLO \\ 84 & $ Z(\to b(p_{3})+\bar{b}(p_{4})) + Z(\to 3\times(\nu(p_{5})+\bar{\nu}(p_{6})))$ & NLO \\ 85 & $ Z(\to e^-(p_{3})+e^+(p_{4})) + Z(\to 3\times(\nu(p_{5})+\bar{\nu}(p_{6})))+f(p_{7})$ & LO \\ 90 & $ Z(\to e^-(p_{3})+e^+(p_{4})) + Z(\to e^-(p_{5})+e^+(p_{6}))$ & NLO \\ \hline 900& $ (W^+ + W^-) + H(\to \tau(p_5)+\bar\tau(p_6)) $& NNLO \\ 91 & $ W^+(\to nu(p_3)+e^+(p_4)) + H(\to \tau(p_5)+\bar\tau(p_6)) $& NNLO \\ 92 & $ W^+(\to nu(p_3)+e^+(p_4)) + H(\to b(p_5)+\bar b(p_6)) $& NNLO \\ 920 &$ W^+(\to nu(p_3)+e^+(p_4)) + H(\to b(p_5)+\bar b(p_6)) $ [rad.in.dk] & NLO \\ 93 & $ W^+(\to nu(p_3)+e^+(p_4)) + H(\to \gamma(p_5)+\gamma(p_6)$ & NNLO \\ 94 & $ W^+(\to nu(p_3)+e^+(p_4)) + H(\to W^+(\nu(p_5),e^+(p_6)) W^-(e^-(p_7),\bar\nu(p_8)))$ & NNLO \\ 95 & $ W^+(\to nu(p_3)+e^+(p_4)) + H(\to Z(e^-(p_5),e^+(p_6))+Z(\mu^-(p_7),\mu(p_8))) $& NNLO \\ 96 & $ W^-(\to e^-(p_3)+\bar\nu(p_4)) + H(\to \tau(p_5)+\bar\tau(p_6)) $& NNLO \\ 97 & $ W^-(\to e^-(p_3)+\bar\nu(p_4)) + H(\to b(p_5)+\bar b(p_6)) $& NNLO \\ 970 & $ W^-(\to e^-(p_3)+\bar\nu(p_4)) + H(\to b(p_5)+\bar b(p_6)) $[rad.in.dk] & NLO \\ 98 & $ W^-(\to e^-(p_3)+\bar\nu(p_4)) + H(\to \gamma(p_5)+\gamma(p_6))$ & NNLO \\ 99 & $ W^-(\to e^-(p_3)+\bar\nu(p_4)) + H(\to W^+(\nu(p_5),e^+(p_6))W^-(e^-(p_7),\bar\nu(p_8))) $ & NNLO \\ 100 & $ W^-(\to e^-(p_3)+\bar\nu(p_4)) + H(\to Z(e^-(p_5),e^+(p_6))+Z(\mu^-(p_7),\mu^+(p_8)))$ & NNLO \\ \hline \end{tabular} \end{center} \end{table} \newpage \begin{table} \begin{center} \begin{tabular}{|l|l|l|} \hline 101 & $ Z(\to e^-(p_{3})+e^+(p_{4})) + H(\to b(p_{5})+\bar{b}(p_{6}))$ & NNLO \\ 1010& $ Z(\to e^-(p_{3})+e^+(p_{4})) + H(\to b(p_{5})+\bar{b}(p_{6})) [rad.in.dk]$ & NLO \\ 102 & $ Z(\to 3\times(\nu(p_{3})+\bar{\nu}(p_{4}))) + H(\to b(p_{5})+\bar{b}(p_{6}))$ & NLO \\ 103 & $ Z(\to b(p_{3})+\bar{b}(p_{4})) + H(\to b(p_{5})+\bar{b}(p_{6}))$ & NLO \\ 104 & $ Z(\to e^-(p_3)+e^+(p_{4})) + H(\to \gamma(p_{5})+\gamma(p_{6}))$ & NNLO \\ 105 & $ Z(\to \to 3\times(\nu(p_3)+\bar{\nu}(p_{4}))) + H(\to \gamma(p_{5})+\gamma(p_{6}))$ & NLO \\ 106 & $ Z(\to e^-(p_{3})+e^+(p_{4})) + H(\to W^+(\nu(p_{5}),e^+(p_{6}))W^-(e^-(p_{7}),\bar{\nu}(p_{8})))$ & NNLO \\ 107 & $ Z(\to 3\times(\nu(p_{3})+\bar{\nu}(p_{4}))) + H(\to W^+(\nu(p_{5}),e^+(p_{6}))W^-(e^-(p_{7}),\bar{\nu}(p_{8})))$ & NLO \\ 108 & $ Z(\to b(p_{3})+\bar{b}(p_{4})) + H(\to W^+(\nu(p_{5}),e^+(p_{6}))W^-(e^-(p_{7}),\bar{\nu}(p_{8})))$ & NLO \\ 109 & $ Z(\to e^-(p_3)+e^+(p_{4})) + H(\to Z(e^-(p_{5}),e^+(p_{6}))+Z(\to\mu^-(p_{7}),\mu^+(p_{8})))$ & NLO \\ 110 & $ Z(\to e^-(p_3)+e^+(p_{4})) + H(\to \tau^-(p_5) \tau^+_(p_6)))$ & NNLO \\ \hline 111 & $ H(\to b(p_{3})+\bar{b}(p_{4}))$ & NNLO \\ 112 & $ H(\to \tau^-(p_{3})+\tau^+(p_{4}))$ & NNLO \\ 113 & $ H(\to W^+(\nu(p_{3})+e^+(p_{4})) + W^-(e^-(p_{5})+\bar{\nu}(p_{6})))$ & NLO \\ 114 & $ H(\to W^+(\nu(p_{3})+e^+(p_{4})) + W^-(q(p_{5})+\bar{q}(p_{6})))$ & NLO \\ 115 & $ H(\to W^+(\nu(p_{3})+e^+(p_{4})) + W^-(q(p_{5})+\bar{q}(p_{6}))) [rad.in.dk]$ & NLO \\ 116 & $ H(\to Z(\to e^-(p_{3})+e^+(p_{4})) + Z(\to\mu^-(p_{5})+\mu^+(p_{6}))$ & NLO \\ 117 & $ H(\to Z(\to3\times(\nu(p_{3})+\bar{\nu}(p_{4})))+ Z(\to\mu^-(p_{5})+\mu^+(p_{6}))$ & NLO \\ 118 & $ H(\to Z(\to\mu^-(p_{3})+\mu^+(p_{4})) + Z(\to b(p_{5})+\bar{b}(p_{6}))$ & NLO \\ 119 & $ H(\to \gamma(p_{3})+\gamma(p_{4}))$ & NNLO \\ 120 & $ H(\to Z(\to\mu^-(p_{3})+\mu^+(p_{4})) + \gamma(p_{5}))$ & NLO \\ 121 & $ H(\to Z(\to3\times(\nu(p_{3})+\bar{\nu}(p_{4})))) + \gamma(p_{5}))$ & NLO \\ \hline 123 & $ H(\to W^+(\nu(p_3)+e^+(p_{4})) + W^-(e^-(p_{5})+\bar{\nu}(p_{6})))$ [t, b loops, exact] & LO \\ 124 & $ H(\to W^+(\nu(p_3)+e^+(p_{4})) + W^-(e^-(p_{5})+\bar{\nu}(p_{6})))$ [only H, gg$\rightarrow$WW int & LO \\ 125 & $ H(\to W^+(\nu(p_3)+e^+(p_{4})) + W^-(e^-(p_{5})+\bar{\nu}(p_{6})))$ [$|H|^2$ and H,gg$\rightarrow$WW int] & LO \\ 126 & $ W^+(\nu(p_3)+e^+(p_{4})) + W^-(e^-(p_{5})+\bar{\nu}(p_{6}))$ [gg only, (H + gg$\rightarrow$WW) squared] & LO \\ 127 & $ W^+(\nu(p_3)+e^+(p_{4})) + W^-(e^-(p_{5})+\bar{\nu}(p_{6}))$ [(gg$\rightarrow$WW squared]) & LO \\ 128 & $ H(\to Z(\to \to e^-(p3)+e^+(p4)) + Z(\to \mu^-(p5)+\mu^+(p6))$ [t, b loops, exact]& LO \\ 129 & $ H(\to Z(\to e^-(p3)+e^+(p4)) + Z(\to \mu^-(p5)+\mu^+(p6))$ [only H, gg$\rightarrow$ZZ int] & LO \\ 130 & $ H(\to Z(\to e^-(p3)+e^+(p4)) + Z(\to \mu^-(p5)+\mu^+(p6))$ [$|H|^2$ and H,gg$\rightarrow$ZZ int]& LO \\ 131 & $ Z(\to e^-(p3)+e^+(p4)) + Z(\to \mu^-(p5)+\mu^+(p6)$ [gg only, $|H + gg \rightarrow ZZ|^2$]& LO \\ 132 & $ Z(\to e^-(p3)+e^+(p4)) + Z(\to \mu^-(p5)+\mu^+(p6)$ [(gg$\rightarrow$ZZ) squared]& LO \\ \hline 1281 & $ H(\to e^-(p3)+e^+(p4) \nu_e(p5)+\bar\nu_e(p6)$ [top, bottom loops, exact]& LO \\ 1311 & $ e^-(p3)+e^+(p4)+\nu_e(p5)+\bar\nu_e(p6)$ [gg only, (H + gg$\rightarrow$ZZ) squared]& LO \\ 1321 & $ e^-(p3)+e^+(p4)+\nu_e(p5)+\bar\nu_e(p6)$ [(gg$\rightarrow$ZZ) squared]& LO \\ \hline 1282 & $ H(\to e^-(p3)+e^+(p4)+\nu(p5)+\bar\nu(p6)$ [top, bottom loops, exact]& LO \\ 1312 & $ e^-(p3)+e^+(p4)+\nu(p5)+\bar\nu(p6)$ [gg only, (H + gg$\rightarrow$ZZ) squared]& LO \\ 1322 & $ e^-(p3)+e^+(p4)+\nu(p5)+\bar\nu(p6)$ [(gg$\rightarrow$ZZ) squared]& LO \\ \hline 133 & $ H(\to Z(\to e^-(p3)+e^+(p4)) + Z(\to \mu^-(p5)+\mu^+(p6) + f(p7))$ [intf,no $p_7$ cut]& LO \\ \hline \end{tabular} \end{center} \end{table} \newpage \begin{table} \begin{center} \begin{tabular}{|l|l|l|} \hline 136 & $ H(\to b(p_{3})+\bar{b}(p_{4})) + b(p_{5}) (+g(p_{6}))$ & NLO \\ 137 & $ H(\to b(p_{3})+\bar{b}(p_{4})) + \bar{b}(p_{5}) (+b(p_{6}))$ & (REAL) \\ 138 & $ H(\to b(p_{3})+\bar{b}(p_{4})) + b(p_{5}) + \bar{b}(p_{6}) [\mbox{both observed}]$ & (REAL) \\ \hline 141 & $ t(\to \nu(p_{3})+e^+(p_{4})+b(p_{5}))+\bar{t}(\to b~(p_{6})+e^-(p_{7})+\bar{\nu}(p_{8}))$ & NLO \\ 142 & $ t(\to \nu(p_{3})+e^+(p_{4})+b(p_{5}))+\bar{t}(\to b~(p_{6})+e^-(p_{7})+\bar{\nu}(p_{8}))$ \mbox{\small [rad.in.dk]}& NLO \\ 143 & $ t(\to \nu(p_{3})+e^+(p_{4})+b(p_{5}))+\bar{t}(\to b~(p_{6})+e^-(p_{7})+\bar{\nu}(p_{8}))+f(p_{9})$ & LO \\ 144 & $ t(\to \nu(p_{3})+e^+(p_{4})+b(p_{5}))+\bar{t}(\to b~(p_{6})+e^-(p_{7})+\bar{\nu}(p_{8}))$ \mbox{(uncorr)} & NLO \\ 145 & $ t(\to \nu(p_{3})+e^+(p_{4})+b(p_{5}))+\bar{t}(\to b~(p_{6})+e^-(p_{7})+\bar{\nu}(p_{8}))$ \mbox{\small [rad.in.dk],uncorr} & NLO \\ 146 & $ t(\to \nu(p_{3})+e^+(p_{4})+b(p_{5}))+\bar{t}(\to b~(p_{6})+q(p_{7})+\bar{q}(p_{8})) $ & NLO \\ 147 & $ t(\to \nu(p_{3})+e^+(p_{4})+b(p_{5}))+\bar{t}(\to b~(p_{6})+q(p_{7})+\bar{q}(p_{8})) $ \mbox{\small [rad.in.top.dk]}& NLO \\ 148 & $ t(\to \nu(p_{3})+e^+(p_{4})+b(p_{5}))+\bar{t}(\to b~(p_{6})+q(p_{7})+\bar{q}(p_{8})) $ \mbox{\small [rad.in.$W$.dk]}& NLO \\ 149 & $ t(\to q(p_{3})+\bar{q}(p_{4})+b(p_{5}))+\bar{t}(\to b~(p_{6})+e^-(p_{7})+\bar{\nu}(p_{8})) $ & NLO \\ 150 & $ t(\to q(p_{3})+\bar{q}(p_{4})+b(p_{5}))+\bar{t}(\to b~(p_{6})+e^-(p_{7})+\bar{\nu}(p_{8})) $ \mbox{\small [rad.in.top.dk]}& NLO \\ 151 & $ t(\to q(p_{3})+\bar{q}(p_{4})+b(p_{5}))+\bar{t}(\to b~(p_{6})+e^-(p_{7})+\bar{\nu}(p_{8})) $ \mbox{\small [rad.in.$W$.dk]}& NLO \\ \hline 157 & $ t \bar{t} [\mbox{for total Xsect}]$ & NLO \\ 158 & $ b \bar{b} [\mbox{for total Xsect}]$ & NLO \\ 159 & $ c \bar{c} [\mbox{for total Xsect}]$ & NLO \\ 160 & $ t \bar{t} + g [\mbox{for total Xsect}]$ & LO \\ \hline 161 & $ t(\to \nu(p_{3})+e^+(p_{4})+b(p_{5}))+q(p_{6}) [\mbox{t-channel}]$ & NLO \\ 1610& $ t(\to \nu(p_{3})+e^+(p_{4})+b(p_{5}))+q(p_{6}) [\mbox{t-channel}]$ & NNLO \\ 162 & $ t(\to \nu(p_{3})+e^+(p_{4})+b(p_{5}))+q(p_{6}) [\mbox{decay}]$ & NLO \\ 163 & $ t(\to \nu(p_{3})+e^+(p_{4})+b(p_{5}))+q(p_{6}) [\mbox{t-channel}] mb>0$ & NLO \\ 164 & $ t(\to \nu(p_{3})+e^+(p_{4})+b(p_{5}))+q(p_{6}) [\mbox{full off-shell t-channel}] mb=0$ & NLO \\ 1650& $ t(\to \nu(p_{3})+e^+(p_{4})+b(p_{5}))+q(p_{6})+g(p_7) [\mbox{t-channel}]$ & NLO \\ 166 & $ \bar{t}(\to e^-(p_{3})+\bar{\nu}(p_{4})+\bar{b}(p_{5}))+q(p_{6}) [\mbox{t-channel}]$ & NLO \\ 167 & $ \bar{t}(\to e^-(p_{3})+\bar{\nu}(p_{4})+\bar{b}(p_{5}))+q(p_{6}) [\mbox{rad.in.dk}]$ & NLO \\ 168 & $ \bar{t}(\to e^-(p_{3})+\bar{\nu}(p_{4})+\bar{b}(p_{5}))+q(p_{6}) [\mbox{t-channel}] mb>0$ & NLO \\ 169 & $ \bar{t}(\to e^-(p_{3})+\bar{\nu}(p_{4})+\bar{b}(p_{5}))+q(p_{6}) [\mbox{full off-shell t-channel}] mb=0$ & NLO \\ \hline 171 & $ t(\to \nu(p_{3})+e^+(p_{4})+b(p_{5}))+\bar{b}(p_{6})) [\mbox{s-channel}]$ & NLO \\ 172 & $ t(\to \nu(p_{3})+e^+(p_{4})+b(p_{5}))+\bar{b}(p_{6})) [\mbox{decay}]$ & NLO \\ 176 & $ \bar{t}(\to e^-(p_{3})+\bar{\nu}(p_{4})+\bar{b}(p_{5}))+b(p_{6})) [\mbox{s-channel}]$ & NLO \\ 177 & $ \bar{t}(\to e^-(p_{3})+\bar{\nu}(p_{4})+\bar{b}(p_{5}))+b(p_{6})) [\mbox{rad.in.dk}]$ & NLO \\ \hline 180 & $ W^-(\to e^-(p_{3})+\bar{\nu}(p_{4}))+t(p_{5})$ & NLO \\ 181 & $ W^-(\to e^-(p_{3})+\bar{\nu}(p_{4}))+t(\nu(p_{5})+e^+(p_{6})+b(p_{7}))$ & NLO \\ 182 & $ W^-(\to e^-(p_{3})+\bar{\nu}(p_{4}))+t(\nu(p_{5})+e^+(p_{6})+b(p_{7})) [\mbox{rad.in.dk}]$ & NLO \\ 183 & $ W^-(\to e^-(p_{3})+\bar{\nu}(p_{4}))+t(\nu(p_{5})+e^+(p_{6})+b(p_{7}))+b(p_{8})$ & LO \\ 184 & $ W^-(\to e^-(p_{3})+\bar{\nu}(p_{4}))+t(p_{5})+b(p_{6}) [\mbox{massive b}]$ & LO \\ 185 & $ W^+(\to \nu(p_{3})+e^+(p_{4}))+\bar{t}(p_{5})$ & NLO \\ 186 & $ W^+(\to \nu(p_{3})+e^+(p_{4}))+\bar{t}(e^-(p_{5})+\bar{\nu}(p_{6})+\bar{b}(p_{7})$ & NLO \\ 187 & $ W^+(\to \nu(p_{3})+e^+(p_{4}))+\bar{t}(e^-(p_{5})+\bar{\nu}(p_{6})+\bar{b}(p_{7}) [\mbox{rad.in.dk}]$ & NLO \\ \hline \end{tabular} \end{center} \end{table} \newpage \begin{table} \begin{center} \begin{tabular}{|l|l|l|} \hline 190 & $ f(p_{3})+f(p_{4})$ & LO \\ 191 & $ f(p_{3})+f(p_{4})$ [mixed QCD/EW] & NLO \\ \hline 200 & $ H + f(p_5)$, see section \ref{subsec:hjetma} & NLO \\ 201 & $ H(\to b(p_{3})+\bar{b}(p_{4})) + f(p_{5}) [\mbox{full mt dep.}]$ & LO \\ 202 & $ H(\to \tau^-(p_{3})+\tau^+(p_{4})) + f(p_{5}) [\mbox{full mt dep.}]$ & LO \\ 203 & $ H(\to b(p_{3})+\bar{b}(p_{4})) + f(p_{5})$ & NNLO \\ 204 & $ H(\to \tau^-(p_{3})+\tau^+(p_{4})) + f(p_{5})$ & NNLO \\ 205 & $ H(\to Z(\mu^-(p_3) + \mu^+(p_4)) + \gamma(p_5)) + f(p_5)$ & NLO \\ 206 & $ A(\to b(p_{3})+\bar{b}(p_{4})) + f(p_{5}) [\mbox{full mt dep.}]$ & LO \\ 207 & $ A(\to \tau^-(p_{3})+\tau^+(p_{4})) + f(p_{5}) [\mbox{full mt dep.}]$ & LO \\ 208 & $ H(\to W^+(\nu(p_{3}),e^+(p_{4}))W^-(e^-(p_{5}),\bar{\nu}(p_{6})))+f(p_{7})$ & NLO \\ 209 & $ H(\to Z(\to e^-(p_{3}),e^+(p_{4}))Z(\to \mu^-(p_{5}),\mu^+(p_{6})))+f(p_{7})$ & NLO \\ 210 & $ H(\to \gamma(p_{3})+\gamma(p_{4})) + f(p_{5})$ & NNLO \\ \hline 211 & $ H(\to b(p_{3})+\bar{b}(p_{4}))+f(p_{5})+f(p_{6}) [\mbox{WBF}]$ & NLO \\ 212 & $ H(\to \tau^-(p_{3})+\tau^+(p_{4}))+f(p_{5})+f(p_{6}) [\mbox{WBF}]$ & NLO \\ 213 & $ H(\to W^+(\nu(p_{3}),e^+(p_{4}))W^-(e^-(p_{5}),\bar{\nu}(p_{6})))+f(p_{7})+f(p_{8}) [\mbox{WBF}]$ & NLO \\ 214 & $ H(\to Z(\to e^-(p_3),e^+(p_{4}))+Z(\to \mu^-(p_{5}),\mu^+(p_{6})))+f(p_{7})+f(p_{8}) [\mbox{WBF}]$ & NLO \\ 215 & $ H(\to \gamma(p_3)+\gamma(p_{4}))+f(p_{5})+f(p_{6}) [\mbox{WBF}]$ & NLO \\ 216 & $ H(\to b(p_{3})+\bar{b}(p_{4}))+f(p_{5})+f(p_{6})+f(p_{7}) [\mbox{WBF+jet}]$ & LO \\ 217 & $ H(\to \tau^-(p_{3})+\tau^+(p_{4}))+f(p_{5})+f(p_{6})+f(p_{7}) [\mbox{WBF+jet}]$ & LO \\ 221 & $ \tau^-(\to e^-(p_{3})+\bar{\nu}_e(p_{4})+\nu_\tau(p_{5}))+\tau^+(\to \bar{\nu}_\tau(p_{6})+\nu_e(p_{7})+e^+(p_{8}))$ & LO \\ \hline 220 & $ Z(\to e^-(p_3),e^+(p_4))Z(\to \mu^-(p_5),\mu^+(p_6)))+f(p_7)+f(p_8) $ [weak]' & LO \\ 2201 & $ Z(\to e^-(p_3),e^+(p_4))Z(\to \mu^-(p_5),\mu^+(p_6)))+f(p_7)+f(p_8) $ [strong]' & LO \\ 222 & $ Z(\to e^-(p_3),e^+(p_4))Z(\to \nu_{\mu}(p_5),\bar{\nu}_{\mu}(p_6)))+f(p_7)+f(p_8) $ [weak]' & LO \\ 2221 & $ Z(\to e^-(p_3),e^+(p_4))Z(\to \nu_{\mu}(p_5),\bar{\nu}_{\mu}(p_6)))+f(p_7)+f(p_8) $ [strong]' & LO \\ 224 & $ W^-(e^-(p_3),\bar{\nu}_e(p_6)))W^+(\nu_{\mu}(p_5),mu^+(p_4))+f(p_7)+f(p_8) $ [weak]' & LO \\ 2241 & $ W^-(e^-(p_3),\bar{\nu}_e(p_6)))W^+(\nu_{\mu}(p_5),mu^+(p_4))+f(p_7)+f(p_8) $ [strong]' & LO \\ 226 & $ e^-(p_3)+e^+(p_4)+\nu_e(p_5)+\bar{\nu}_e(p_6)+f(p_7)+f(p_8) $ [weak]' & LO \\ 228 & $ W^+(\nu_e(p_3),e^+(p_4)))W^+(\nu_{\mu}(p_5),mu^+(p_6))+f(p_7)+f(p_8) $ [weak]' & LO \\ 2281 & $ W^+(\nu_e(p_3),e^+(p_4)))W^+(\nu_{\mu}(p_5),mu^+(p_6))+f(p_7)+f(p_8) $ [strong]' & LO \\ 229 & $ W^-(e^-(p_3),\bar{\nu}_e(p_4)))W^-(mu^-(p_5),\bar{\nu}_{\mu}(p_6))+f(p_7)+f(p_8) $ [weak]' & LO \\ 2291 & $ W^-(e^-(p_3),\bar{\nu}_e(p_4)))W^-(mu^-(p_5),\bar{\nu}_{\mu}(p_6))+f(p_7)+f(p_8) $ [strong]' & LO \\ 223 & $ W^+(\nu_e(p_3),e^+(p_4))Z(\to \mu^-(p_5),\mu^+(p_6)))+f(p_7)+f(p_8) $ [weak]' & LO \\ 2231 & $ W^+(\nu_e(p_3),e^+(p_4))Z(\to \mu^-(p_5),\mu^+(p_6)))+f(p_7)+f(p_8) $ [strong]' & LO \\ 225 & $ W^-(e^-(p_3),\bar{\nu}_e(p_4))Z(\to \mu^-(p_5),\mu^+(p_6)))+f(p_7)+f(p_8) $ [weak]' & LO \\ 2251 & $ W^-(e^-(p_3),\bar{\nu}_e(p_4))Z(\to \mu^-(p_5),\mu^+(p_6)))+f(p_7)+f(p_8) $ [strong]' & LO \\ \hline \end{tabular} \end{center} \end{table} \newpage \begin{table} \begin{center} \begin{tabular}{|l|l|l|} \hline 231 & $t(p_3)+\bar{b}(p_4)+q(p_5)$ [\mbox{t-channel]} & NLO \\ 232 & $t(p_3)+\bar{b}(p_4)+q(p_5)+q(p_6)$ [\mbox{t-channel]} & LO \\ 233 & $t(\to \nu(p_3)+e^+(p_4)+b(p_5))+\bar{b}(p_6)+q(p_7)$ [\mbox{t-channel]} & NLO \\ 234 & $t(\to \nu(p_3)+e^+(p_4)+b(p_5))+\bar{b}(p_6)+q(p_7)$ [\mbox{t-channel, rad.in.dk]} & NLO \\ 235 & $t(\to \nu(p_3)+e^+(p_4)+b(p_5))+\bar{b}(p_6)+q(p_7)+f(p_8)$ [\mbox{t-channel]} & LO \\ 236 & $\bar{t}(p_3)+b(p_4)+q(p_5)$ [\mbox{t-channel]} & NLO \\ 237 & $\bar{t}(p_3)+b(p_4)+q(p_5)+q(p_6)$ [\mbox{t-channel]} & LO \\ 238 & $\bar{t}(\to e^-(p_3)+\bar{\nu}(p_4)+\bar{b}(p_5))+b(p_6)+q(p_7)$ [\mbox{t-channel]} & NLO \\ 239 & $\bar{t}(\to e^-(p_3)+\bar{\nu}(p_4)+\bar{b}(p_5))+b(p_6)+q(p_7)$ [\mbox{t-channel, rad.in.dk]} & NLO \\ 240 & $\bar{t}(\to e^-(p_3)+\bar{\nu}(p_4)+\bar{b}(p_5))+b(p_6)+q(p_7)+f(p_8)$ [\mbox{t-channel]} & L0 \\ \hline 251 & $ W^+(\to \nu(p_{3})+e^+(p_{4})) + W^+(\to \nu(p_{5})+e^+(p_{6}))+f(p_{7})+f(p_{8})$ & LO \\ 252 & $ W^+(\to \nu(p_{3})+e^+(p_{4})) + W^+(\to \nu(p_{5})+e^+(p_{6}))+f(p_{7})+f(p_{8})+f(p_{9})$ & LO \\ 253 & $W^+(\to\nu(p_3)+e^+(p_4)) + Z(\to e^-(p_5)+e^+(p_6))+f(p_7)+f(p_8)$ & LO \\ 254 & $W^-(\to e^-(p_3)+\bar{\nu}(p_4))+ Z(\to e^-(p_5)+e^+(p_6))+f(p_7)+f(p_8)$ & LO \\ 255 & $W^+(\to \nu(p_3)+e^+(p_4)) + Z(\to e^-(p_5)+e^+(p_6))+b(p_7)+f(p_8)$ & LO \\ 256 & $W^-(\to e^-(p_3)+\bar{\nu}(p_4))+ Z(\to e^-(p_5)+e^+(p_6))+b(p_7)+f(p_8)$ & LO \\ 259 & $W^+(\to \nu(p_3)+e^+(p_4)) + Z(\to e^-(p_5)+e^+(p_6))+b(p_7)+b~(p_8)$ & LO \\ 260 & $W^-(\to e^-(p_3)+\bar{\nu}(p_4))+ Z(\to e^-(p_5)+e^+(p_6))+b(p_7)+b~(p_8)$ & LO \\ \hline 261 & $ Z(\to e^-(p_{3})+e^+(p_{4}))+b(p_{5})$ & NLO \\ 262 & $ Z(\to e^-(p_{3})+e^+(p_{4}))+c(p_{5})$ & NLO \\ 263 & $ Z(\to e^-(p_{3})+e^+(p_{4}))+\bar{b}(p_{5})+b(p_{6}) [\mbox{1 b-tag}]$ & LO \\ 264 & $ Z(\to e^-(p_{3})+e^+(p_{4}))+\bar{c}(p_{5})+c(p_{6}) [\mbox{1 c-tag}]$ & LO \\ 266 & $ Z(\to e^-(p_{3})+e^+(p_{4}))+b(p_{5})(+\bar{b}(p_{6}))$ & NLO \\ 267 & $ Z(\to e^-(p_{3})+e^+(p_{4}))+c(p_{5})(+\bar{c}(p_{6}))$ & NLO \\ \hline 269 & $ H(\gamma(p_{3})+\gamma(p_{4}))+f(p_{5})+f(p_{6}) [\mbox{full mt dep.}]$ & NLO \\ \hline \end{tabular} \end{center} \end{table} \newpage \begin{table} \begin{center} \begin{tabular}{|l|l|l|} \hline 270 & $ H(\gamma(p_{3})+\gamma(p_{4}))+f(p_{5})+f(p_{6}) [\mbox{in heavy top limit}]$ & NLO \\ 271 & $ H(b(p_{3})+\bar{b}(p_{4}))+f(p_{5})+f(p_{6}) [\mbox{in heavy top limit}]$ & NLO \\ 272 & $ H(\tau^-(p_{3})+\tau^+(p_{4}))+f(p_{5})+f(p_{6}) [\mbox{in heavy top limit}]$ & NLO \\ 273 & $ H(\to W^+(\nu(p_{3}),e^+(p_{4}))W^-(e^-(p_{5}),\bar{\nu}(p_{6})))+f(p_{7})+f(p_{8})$ & NLO \\ 274 & $ H(\to Z(e^-(p_{3}),e^+(p_{4}))Z(\mu^-(p_{5}),\mu^+(p_{6})))+f(p_{7})+f(p_{8})$ & NLO \\ 275 & $ H(b(p_{3})+\bar{b}(p_{4}))+f(p_{5})+f(p_{6})+f(p_{7}) [\mbox{in heavy top limit}]$ & LO \\ 276 & $ H(\tau^-(p_{3})+\tau^+(p_{4}))+f(p_{5})+f(p_{6})+f(p_{7}) [\mbox{in heavy top limit}]$ & LO \\ 278 & $ H(\to W^+(\nu(p_3),e^+(p_4))W^-(e^-(p_5),\bar{\nu}(p_6)))+f(p_7)+f(p_8)+f(p_9)$ & LO \\ 279 & $ H(\to Z(e^-(p_3),e^+(p_4))Z(\mu^-(p_5),\mu^+(p_6)))+f(p_7)+f(p_8)+f(p_9)$ & LO \\ \hline 280 & $ \gamma(p_3)+f(p_{4})$ & NLO+F \\ 282 & $ f(p_{1})+f(p_{2})\to \gamma(p_{3})+f(p_{4})+f(p_{5})$ & LO \\ 283 & $ f(p_{1})+f(p_{2})\to \gamma(p_{3})+b(p_{4})$ & LO \\ 284 & $ f(p_{1})+f(p_{2})\to \gamma(p_{3})+c(p_{4})$ & LO \\ 285 & $ f(p_{1})+f(p_{2})\to \gamma(p_{3})+\gamma(p_{4})$ & NLO+F, NNLO \\ 2851& $ g(p_{1})+g(p_{2})\to \gamma(p_{3})+\gamma(p_{4})$ & NLO \\ 286 & $ f(p_{1})+f(p_{2})\to \gamma(p_{3})+\gamma(p_{4})+f(p_{5})$ & LO \\ 2861& $ g(p_{1})+g(p_{2})\to \gamma(p_{3})+\gamma(p_{4})+f(p_{5})$ & LO \\ 287 & $ f(p_{1})+f(p_{2})\to \gamma(p_{3})+\gamma(p_{4})+\gamma(p_{5})$ & NLO+F \\ 289 & $ f(p_{1})+f(p_{2})\to \gamma(p_{3})+\gamma(p_{4})+\gamma(p_{5})+\gamma(p_{6})$ & NLO+F \\ \hline 290 & $ f(p_{1})+f(p_{2})\to W^+(\to \nu(p_{3})+e^+(p_{4}))+\gamma(p_{5})$ & NNLO \\ 292 & $ f(p_{1})+f(p_{2})\to W^+(\to \nu(p_{3})+e^+(p_{4})) +\gamma(p_{5})+f(p_{6}) $ & NLO \\ 293 & $ f(p_{1})+f(p_{2})\to W^+(\to \nu(p_{3})+e^+(p_{4})) +\gamma(p_{5})+f(p_{6})+f(p_{7}) $ & LO \\ 294 & $ f(p_{1})+\gamma(p_{2})\to W^+(\to \nu(p_{3})+e^+(p_{4})) +\gamma(p_{5})+f(p_{6}) $ & NLO \\ 2941& $ f(p_{1})+\gamma(p_{2})\to W^+(\to \nu(p_{3})+e^+(p_{4})) +\gamma(p_{5})+f(p_{6})+f(p_7) $ & NLO \\ 295 & $ f(p_{1})+f(p_{2})\to W^-(\to e^-(p_{3})+\bar{\nu}(p_{4}))+\gamma(p_{5})$ & NNLO \\ 297 & $ f(p_{1})+f(p_{2})\to W^-(\to e^-(p_{3})+\bar{\nu}(p_{4}))+\gamma(p_{5})+f(p_{6}) $ & NLO \\ 298 & $ f(p_{1})+f(p_{2})\to W^-(\to e^-(p_{3})+\bar{\nu}(p_{4}))+\gamma(p_{5})+f(p_{6})+f(p_{7}) $ & LO \\ 299 & $ f(p_{1})+\gamma(p_{2})\to W^-(\to e^-(p_{3})+\bar{\nu}(p_{4}))+\gamma(p_{5})+f(p_{6}) $ & NLO \\ 2991& $ f(p_{1})+\gamma(p_{2})\to W^-(\to e^-(p_{3})+\bar{\nu}(p_{4}))+\gamma(p_{5})+f(p_{6})+f(p_7) $ & NLO \\ \hline 300 & $ Z(\to e ^-(p_3)+e^+(p_4))+\gamma(p_5)$ & NNLO \\ 301 & $ Z(\to e ^-(p_3)+e^+(p_4))+\gamma(p_5)+\gamma(p_6) $& NLO +F \\ 302 &$ Z(\to e ^-(p_3)+e^+(p_4))+\gamma(p_5)+f(p_6) $& NLO \\ 303 &$ Z(\to e ^-(p_3)+e^+(p_4))+\gamma(p_5)+\gamma(p_6)+f(p_7) $& LO \\ 304 & $ Z(\to e ^-(p_3)+e^+(p_4))+\gamma(p_5)+f(p_6)+f(p_7) $ & LO \\ 305 & $ Z(\to 3(\nu(p_3)+\bar{\nu}(p_4)))+\gamma(p_5) $& NNLO \\ 306 & $ Z(\to 3(\nu(p_3)+\bar{\nu}(p_4)))+\gamma(p_5)+\gamma(p_6) $& NLO + F \\ 307 &$ Z(\to 3(\nu(p_3)+\bar{\nu}(p_4)))+\gamma(p_5)+f(p_6) $ & NLO \\ 308 &$ Z(\to 3(\nu(p_3)+\bar{\nu}(p_4)))+\gamma(p_5)+\gamma(p_6)+f(p_7) $ & LO \\ 309 &$ Z(\to 3(\nu(p_3)+\bar{\nu}(p_4)))+\gamma(p_5)+f(p_6)+f(p_7) $ & LO \\ \hline 311 & $ f(p_{1})+b(p_{2}) \to W^+(\to \nu(p_{3})+e^+(p_{4}))+b(p_{5})+f(p_{6})$ & LO \\ 316 & $ f(p_{1})+b(p_{2}) \to W^-(\to e^-(p_{3})+\bar{\nu}(p_{4}))+b(p_{5})+f(p_{6})$ & LO \\ \hline 321 & $ f(p_{1})+c(p_{2}) \to W^+(\to \nu(p_{3})+e^+(p_{4}))+c(p_{5})+f(p_{6})$ & LO \\ 326 & $ f(p_{1})+c(p_{2}) \to W^-(\to e^-(p_{3})+\bar{\nu}(p_{4}))+c(p_{5})+f(p_{6})$ & LO \\ \hline \end{tabular} \end{center} \end{table} \newpage \begin{table} \begin{center} \begin{tabular}{|l|l|l|} \hline 331 & $ W^+(\to \nu(p_{3})+e^+(p_{4}))+c(p_{5})+f(p_{6}) [\mbox{c-s interaction}]$ & LO \\ 336 & $ W^-(\to e^-(p_{3})+\bar{\nu}(p_{4}))+c(p_{5})+f(p_{6}) [\mbox{c-s interaction}]$ & LO \\ \hline 341 & $ f(p_{1})+b(p_{2}) \to Z(\to e^-(p_{3})+e^+(p_{4}))+b(p_{5})+f(p_{6}) [+f(p_{7})]$ & NLO \\ 342 & $ f(p_{1})+b(p_{2}) \to Z(\to e^-(p_{3})+e^+(p_{4}))+b(p_{5})+f(p_{6}) [+\bar{b}(p_{7})]$ & (REAL) \\ 346 & $ f(p_{1})+b(p_{2}) \to Z(\to e^-(p_{3})+e^+(p_{4}))+b(p_{5})+f(p_{6})+f(p_{7})$ & LO \\ 347 & $ f(p_{1})+b(p_{2}) \to Z(\to e^-(p_{3})+e^+(p_{4}))+b(p_{5})+f(p_{6})+\bar{b}(p_{7})$ & LO \\ \hline 351 & $ f(p_{1})+c(p_{2}) \to Z(\to e^-(p_{3})+e^+(p_{4}))+c(p_{5})+f(p_{6}) [+f(p_{7})]$ & NLO \\ 352 & $ f(p_{1})+c(p_{2}) \to Z(\to e^-(p_{3})+e^+(p_{4}))+c(p_{5})+f(p_{6}) [+\bar{c}(p_{7})]$ & (REAL) \\ 356 & $ f(p_{1})+c(p_{2}) \to Z(\to e^-(p_{3})+e^+(p_{4}))+c(p_{5})+f(p_{6})+f(p_{7})$ & LO \\ 357 & $ f(p_{1})+c(p_{2}) \to Z(\to e^-(p_{3})+e^+(p_{4}))+c(p_{5})+f(p_{6})+\bar{c}(p_{7})$ & LO \\ \hline 361 & $ c(p_{1})+\bar{s}(p_{2}) \to W^+(\to \nu(p_{3})+e^+(p_{4})) [\mbox{mc=0 in NLO}]$ & NLO \\ 362 & $ c(p_{1})+\bar{s}(p_{2}) \to W^+(\to \nu(p_{3})+e^+(p_{4})) [\mbox{massless corrections only}]$ & NLO \\ 363 & $ c(p_{1})+\bar{s}(p_{2}) \to W^+(\to \nu(p_{3})+e^+(p_{4})) [\mbox{massive charm in real}]$ & NLO \\ \hline 370 & $ W^+(\to \nu(p_{3})+e^+(p_{4}))+\gamma(p_{5})+\gamma(p_{6})$ & LO \\ 371 & $ W^-(\to e^-(p_{3})+\bar{\nu}(p_{4}))+\gamma(p_{5})+\gamma(p_{6})$ & LO \\ \hline 401 & $ W^+(\to \nu(p_{3})+e^+(p_{4}))+b(p_{5}) ~[\mbox{1,2 or 3 jets, 4FNS}]$ & NLO \\ 402 & $ W^+(\to \nu(p_{3})+e^+(p_{4}))+(b+\bar{b})(p_{5}) ~[\mbox{1 or 2 jets, 4FNS}]$ & NLO \\ 403 & $ W^+(\to \nu(p_{3})+e^+(p_{4}))+b(p_{5})+\bar b(p_{6}) ~[\mbox{2 or 3 jets, 4FNS}]$ & NLO \\ 406 & $ W^-(\to e^-(p_{3})+\bar{\nu}(p_{4}))+b(p_{5}) ~[\mbox{1,2 or 3 jets, 4FNS}]$ & NLO \\ 407 & $ W^-(\to e^-(p_{3})+\bar{\nu}(p_{4}))+(b+\bar{b})(p_{5}) ~[\mbox{1 or 2 jets, 4FNS}]$ & NLO \\ 408 & $ W^-(\to e^-(p_{3})+\bar{\nu}(p_{4}))+b(p_{5})+\bar b(p_{6}) ~[\mbox{2 or 3 jets, 4FNS}]$ & NLO \\ \hline 411 & $ f(p_1)+b(p_2) \to W^+(\to \nu(p_3)+e^+(p_{4}))+b(p_{5})+f(p_{6})$ ~[\mbox{5FNS}] & NLO \\ 416 & $ f(p_1)+b(p_2) \to W^-(\to e^-(p_3)+\bar{\nu}(p_{4}))+b(p_{5})+f(p_{6})$ ~[\mbox{5FNS}] & NLO \\ \hline 421 & $ W^+(\to \nu(p_{3})+e^+(p_{4}))+b(p_{5}) ~[\mbox{1,2 or 3 jets, 4FNS+5FNS}]$ & NLO \\ 426 & $ W^-(\to e^-(p_{3})+\bar{\nu}(p_{4}))+b(p_{5}) ~[\mbox{1,2 or 3 jets, 4FNS+5FNS}]$ & NLO \\ \hline 431 & $ W^+(\to \nu(p_3)+e^+(p_{4}))+b(p_{5})+\bar b(p_{6})+f(p_{7}) ~[\mbox{massive}]$ & LO \\ 436 & $ W^-(\to e^-(p_3)+\bar{\nu}(p_{4}))+b(p_{5})+\bar b(p_{6})+f(p_{7}) ~[\mbox{massive}]$ & LO \\ \hline 461 & $ W^+(\to \nu(p_{3})+\mu^+(p_{4})) +W^-(\to e^-(p_{5})+\bar{\nu}(p_{6}))+f(p_7)$ & NNLO \\ \hline 471 & $ W^+(\to \nu(p_{3})+e^+(p_{4}))+Z(\to \mu^-(p_{5})+\mu^+(p_{6}))+f(p_7)$ & NNLO \\ \hline 476 & $ W^-(\to e^-(p_{3})+\bar{\nu}(p_{4}))+Z(\to \mu^-(p_{5})+\mu^+(p_{6}))+f(p_7)$ & NNLO \\ \hline 481 & $ Z(\to e^-(p_{3})+e^+(p_{4})) + Z(\to \mu^-(p_{5})+\mu^+(p_{6}))+f(p_7)$ & NNLO \\ 482 & $ Z(\to e^-(p_{3})+e^+(p_{4})) + Z(\to \nu_\mu(p_{5})+\bar{\nu}_\mu(p_{6}))+f(p_7)$ & NNLO \\ \hline 486 & $ Z(\to \mu^-(p_{3})+\mu^+(p_{4}))+Z(\to e^-(p_{5})+e^+(p_{6}))+f(p_7)[\mbox{no gamma*}]$ & NNLO \\ 487 & $ Z(\to e^-(p_{3})+e^+(p_{4})) + Z(\to \nu_\mu(p_{5})+\bar{\nu}_\mu(p_{6}))+f(p_7)[\mbox{no gamma*}]$ & NNLO \\ \hline 500 & $ W^+(\to \nu(p_3)+e^+(p_4)) +t(p_5)+\bar{t}(p_6) \mbox{[massive]}$ & NLO \\ 501 & $ t(\to \nu(p_3)+e^+(p_4)+b(p_5))+\bar{t}(\to b~(p_6)+e^-(p_7)+\bar{\nu}(p_8))+W^+(\nu(p_9),\mu^+(p_{10}))$ & NLO \\ 502 & $ \mbox{(same as process 501 but with radiation in decay)}$ & NLO \\ 503 & $ t(\to \nu(p_3)+e^+(p_4)+b(p_5))+\bar{t}(\to b~(p_6)+q(p_7)+q~(p_8))+W^+(\nu(p_9),\mu^+(p_{10}))$ & NLO \\ 506 & $ t(\to q(p_3)+q~(p_4)+b(p_5))+\bar{t}(\to b~(p_6)+e^-(p_7)+\bar{\nu}(p_8))+W^+(\nu(p_9),\mu^+(p_{10}))$ & NLO \\ \hline \end{tabular} \end{center} \end{table} \newpage \begin{table} \begin{center} \begin{tabular}{|l|l|l|} \hline 510 & $ W^-(\to e^-(p_3)+\bar{\nu}(p_4))+t(p_5)+\bar{t}(p_6) \mbox{[massive]} $ & NLO \\ 511 & $ t(\to \nu(p_3)+e^+(p_4)+b(p_5))+\bar{t}(\to b~(p_6)+e^-(p_7)+\bar{\nu}(p_8))+W^-(\mu^-(p_9),\bar{\nu}(p_{10}))$ & NLO \\ 512 & $ \mbox{(same as process 511 but with radiation in decay)}$ & NLO \\ 513 & $ t(\to \nu(p_3)+e^+(p_4)+b(p_5))+\bar{t}(\to b~(p_6)+q(p_7)+q~(p_8))+W^-(\mu^-(p_9),\bar{\nu}(p_{10}))$ & NLO \\ 516 & $ t(\to q(p_3)+q~(p_4)+b(p_5))+\bar{t}(\to b~(p_6)+e^-(p_7)+\bar{\nu}(p_8))+W^-(\mu^-(p_9),\bar{\nu}(p_{10}))$ & NLO \\ 529 & $ Z(\to e^-(p_3)+e^+(p_4))+t(p5)+\bar{t}(p_6) $ & LO \\ 530 & $ t(\to \nu(p_3)+e^+(p_4)+b(p_5))+\bar{t}(\to e^-(p_7)+\bar{\nu}(p_8)+b~(p_6))+Z(e^-(p_9),e^+(p_{10}))$ & LO \\ 531 & $ t(\to \nu(p_3)+e^+(p_4)+b(p_5))+\bar{t}(\to e^-(p_7)+\bar{\nu}(p_8)+b~(p_6))+Z(b(p_9),b~(p_{10}))$ & LO \\ 532 & $ t(\to \nu(p_3)+e^+(p_4)+b(p_5))+\bar{t}(\to q(p_7)+\bar{q}(p_8)+b~(p_6))+Z(e^-(p_9),e^+(p_{10}))$ & LO \\ 533 & $ t(\to q(p_3)+\bar{q}(p_4)+b(p_5))+\bar{t}(\to e^-(p_7)+\bar{\nu}(p_8)+b~(p_6))+Z(e^-(p_9),e^+(p_{10}))$ & LO \\ \hline 540 & $H(b(p_3)+\bar{b}(p_4))+t(p_5)+q(p_6)$ & NLO \\ 541 & $H(b(p_3)+\bar{b}(p_4))+\bar{t}(p_5)+q(p_6)$ & NLO \\ 544 & $H(b(p_3)+\bar{b}(p_4))+t(\nu(p_5)+e^+(p_6)+b(p_7))+q(p_9)$ & NLO \\ 547 & $H(b(p_3)+\bar{b}(p_4))+\bar{t}(e^-(p_5)+\bar{\nu}(p_6)+b(p_7))+q(p_9)$ & NLO \\ \hline 550 & $H(\gamma(p_3)+\gamma(p_4))+t(p_5)+q(p_6)$ & NLO \\ 551 & $H(\gamma(p_3)+\gamma(p_4))+\bar{t}(p_5)+q(p_6)$ & NLO \\ 554 & $H(\gamma(p_3)+\gamma(p_4))+t(\nu(p_5)+e^+(p_6)+b(p_7))+q(p_9)$ & NLO \\ 557 & $H(\gamma(p_3)+\gamma(p_4))+\bar{t}(e^-(p_5)+\bar{\nu}(p_6)+b(p_7))+q(p_9)$ & NLO \\ \hline 560 & $Z(e^-(p_3)+e^+(p_4))+t(p_5)+q(p_6)$ & NLO \\ 561 & $Z(e^-(p_3)+e^+(p_4))+\bar{t}(p_5)+q(p_6)$ & NLO \\ 562 & $Z(e^-(p_3)+e^+(p_4))+t(p_5)+q(p_6)+f(p_7)$ & LO \\ 563 & $Z(e^-(p_3)+e^+(p_4))+\bar{t}(p_5)+q(p_6)+f(p_7)$ & LO \\ 564 & $Z(e^-(p_3)+e^+(p_4))+t(\to\nu(p_5)+e^+(p_6)+b(p_7))+q(p_8)$ & NLO \\ 566 & $Z(e^-(p_3)+e^+(p_4))+t(\to\nu(p_5)+e^+(p_6)+b(p_7))+q(p_8)+f(p_9)$ & LO \\ 567 & $Z(e^-(p_3)+e^+(p_4))+\bar{t}(\to e^-(p_5)+\bar{\nu}(p_6)+\bar{b}(p_7))+q(p_8)$ & NLO \\ 569 & $Z(e^-(p_3)+e^+(p_4))+\bar{t}(\to e^-(p_5)+\bar{\nu}(p_6)+\bar{b}(p_7))+q(p_8)+f(p_9)$ & LO \\ \hline 601 & $H(b(p_3)+\bar{b}(p_4))+H(\tau^-(p_5)+\tau^+(p_6)) $ & LO \\ 602 & $H(b(p_3)+\bar{b}(p_4))+H(\gamma(p_5)+\gamma(p_6)) $ & LO \\ \hline \hline 609& $ (W^+ + W^-) + H(\to \tau(p_5)+\bar\tau(p_6))+g(p_7) $& NLO \\ 610 & $ W^+(\to nu(p_3)+e^+(p_4)) + H(\to \tau(p_5)+\bar\tau(p_6))+g(p_7) $& NLO \\ 611 & $ W^+(\to nu(p_3)+e^+(p_4)) + H(\to b(p_5)+\bar b(p_6))+g(p_7) $& NLO \\ 612 & $ W^+(\to nu(p_3)+e^+(p_4)) + H(\to \gamma(p_5)+\gamma(p_6)+g(p_7)$ & NLO \\ 613 & $ W^+(\to nu(p_3)+e^+(p_4)) + H(\to W^+(\nu(p_5),e^+(p_6)) W^-(e^-(p_7),\bar\nu(p_8)))+g(p_9)$ & NLO \\ 615 & $ W^-(\to e^-(p_3)+\bar\nu(p_4)) + H(\to \tau(p_5)+\bar\tau(p_6))+g(p_7) $& NLO \\ 616 & $ W^-(\to e^-(p_3)+\bar\nu(p_4)) + H(\to b(p_5)+\bar b(p_6))+g(p_7) $& NLO \\ 617 & $ W^-(\to e^-(p_3)+\bar\nu(p_4)) + H(\to \gamma(p_5)+\gamma(p_6))+g(p_7)$ & NLO \\ 618 & $ W^-(\to e^-(p_3)+\bar\nu(p_4)) + H(\to W^+(\nu(p_5),e^+(p_6))W^-(e^-(p_7),\bar\nu(p_8)))+g(p_9) $ & NLO \\ \hline 620 & $ Z(\to e^-(p_{3})+e^+(p_{4})) + H(\to tau^-(p_{5})+\tau^+(p_{6}))+g(p_7)$ & NLO \\ 621 & $ Z(\to e^-(p_{3})+e^+(p_{4})) + H(\to b(p_{5})+\bar{b}(p_{6}))+g(p_7)$ & NLO \\ 622 & $ Z(\to e^-(p_3)+e^+(p_{4})) + H(\to \gamma(p_{5})+\gamma(p_{6}))+g(p_7)$ & NLO \\ 623 & $ Z(\to e^-(p_{3})+e^+(p_{4})) + H(\to W^+(\nu(p_{5}),e^+(p_{6}))W^-(e^-(p_{7}),\bar{\nu}(p_{8})))+g(p_9)$ & NLO \\ \hline \end{tabular} %\caption{Processes indicated by choice of the variable {\tt nproc}.} \end{center} \end{table} \newpage \begin{table} \begin{center} \begin{tabular}{|l|l|l|} \hline 640 & $t(p_3)+\bar{t}(p_4)+H(p_5)$ & LO \\ 641 & $t(\to\nu(p_3)+e^+(p_4)+b(p_5))+\bar{t}(\to\bar{\nu}(p_7)+e^-(p_8)+\bar{b}(p_6))+H(b(p_9)+\bar{b}(p_{10}))$ & LO \\ 644 & $t(\to\nu(p_3)+e^+(p_4)+b(p_5))+\bar{t}(\to\bar{q}(p_7)+q(p_8)+\bar{b}(p_6))+H(b(p_9)+\bar{b}(p_{10}))$ & LO \\ 647 & $t(\to q(p_3)+\bar{q}(p_4)+b(p_5))+\bar{t}(\to\bar{\nu}(p_7)+e^-(p_8)+\bar{b}(p_6))+H(b(p_9)+\bar{b}(p_{10}))$ & LO \\ 651 & $t(\to\nu(p_3)+e^+(p_4)+b(p_5))+\bar{t}(\to\bar{\nu}(p_7)+e^-(p_8)+\bar{b}(p_6))+H(\gamma(p_9)+\gamma(p_{10}))$ & LO \\ 654 & $t(\to\nu(p_3)+e^+(p_4)+b(p_5))+\bar{t}(\to\bar{q}(p_7)+q(p_8)+\bar{b}(p_6))+H(\gamma(p_9)+\gamma(p_{10}))$ & LO \\ 657 & $t(\to q(p_3)+\bar{q}(p_4)+b(p_5))+\bar{t}(\to\bar{\nu}(p_7)+e^-(p_8)+\bar{b}(p_6))+H(\gamma(p_9)+\gamma(p_{10}))$ & LO \\ 661 & $t(\to\nu(p_3) e^+(p_4) b(p_5)) +\bar{t}(\to\bar{\nu}(p_7)e^-(p_8)\bar{b}(p_6))+H(W^+(p_{9},p_{10})W^-(p_{11},p_{12}))$ & LO \\ 664 & $t(\to\nu(p_3) e^+(p_4) b(p_5)) +\bar{t}(\to\bar{q}(p_7)q(p_8)\bar{b}(p_6))+H(W^+(p_{9},p_{10})W^-(p_{11},p_{12}))$ & LO \\ 667 & $t(\to q(p_3) \bar{q}(p_4) b(p_5)) +\bar{t}\to(\bar{\nu}(p_7)e^-(p_8)\bar{b}(p_6))+H(W^+(p_{9},p_{10})W^-(p_{11},p_{12}))$ & LO \\ \hline 800 & $ V\to({\chi}(p_3)+\bar{\chi}(p_4)) +f(p_5) $ [Vector Mediator] & NLO \\ 801 & $ A\to({\chi}(p_3)+\bar{\chi}(p_4)) +f(p_5)$ [Axial Vector Mediator] & NLO \\ 802 & $ S\to({\chi}(p_3)+\bar{\chi}(p_4)) +f(p_5)$ [Scalar Mediator] & NLO \\ 803 & $ PS\to({\chi}(p_3)+\bar{\chi}(p_4)) +f(p_5)$ [Pseudo Scalar Mediator] & NLO \\ 804 & $ GG\to({\chi}(p_3)+\bar{\chi}(p_4)) +f(p_5)$ [Gluonic DM operator] & NLO \\ 805 & $ S--({\chi}(p_3)+\bar{\chi}(p_4)) +f(p_5)$ [Scalar Mediator, mt loops] & NLO \\ \hline 820 & $V\to({\chi}(p_3)+\bar{\chi}(p_4)) +\gamma(p_5)$ [Vector Mediator] & NLO + F \\ 821 & $A\to({\chi}(p_3)+\bar{\chi}(p_4)) +\gamma(p_5) $[Axial Vector Mediator] & NLO + F \\ 822 & $ S\to({\chi}(p_3)+\bar{\chi}(p_4)) +\gamma(p_5) $[Scalar Mediator] & NLO + F \\ 823 &$ PS\to({\chi}(p_3)+\bar{\chi}(p_4)) +\gamma(p_5) $[Pseudo Scalar Mediator] & NLO + F \\ \hline 840 &$ V\to({\chi}(p_3)+\bar{\chi}(p_4)) +f(p_5)+f(p_6)$ [Vector Mediator] & LO\\ 841 &$A\to({\chi}(p_3)+\bar{\chi}(p_4)) +f(p_5)+f(p_6)$ [Axial Vector Mediator] & LO\\ 842 &$ S\to({\chi}(p_3)+\bar{\chi}(p_4)) +f(p_5)+f(p_6)$ [Scalar Mediator] & LO\\ 843 &$ PS\to({\chi}(p_3)+\bar{\chi}(p_4)) +f(p_5)+f(p_6)$ [Pseudo Scalar Mediator] & LO\\ 844 &$ GG\to({\chi}(p_3)+\bar{\chi}(p_4)) +f(p_5)+f(p_6)$ [Gluonic DM operator] & LO\\ \hline 845 & $V\to({\chi}(p_3)+\bar{\chi}(p_4)) +\gamma(p_5)+f(p_6)$ [Vector Mediator] & LO\\ 846 & $A\to({\chi}(p_3)+\bar{\chi}(p_4)) +\gamma(p_5)+f(p_6)$ [Axial Vector Mediator] & LO\\ 847 & $S\to({\chi}(p_3)+\bar{\chi}(p_4)) +\gamma(p_5)+f(p_6)$ [Scalar Mediator] & LO\\ 848 & $PS\to({\chi}(p_3)+\bar{\chi}(p_4)) +\gamma(p_5)+f(p_6)$ [Pseudo Scalar Mediator] & LO\\ \hline 902 & Check of Volume of 2 particle phase space & \\ 903 & Check of Volume of 3 particle phase space & \\ 904 & Check of Volume of 4 particle phase space & \\ 905 & Check of Volume of 5 particle phase space & \\ 906 & Check of Volume of 6 particle phase space & \\ 908 & Check of Volume of 8 particle phase space & \\ 909 & Check of Volume of 4 particle massive phase space & \\ 910 & Check of Volume of 3 particle (2 massive) phase space & \\ 911 & Check of Volume of 5 particle W+t (with decay) massive phase space & \\ 912 & Check of Volume of 5 particle W+t (no decay) massive phase space & \\ 913 & Check of Volume of 5 particle W+t+g (in decay) massive phase space & \\ 914 & Check of Volume of 5 particle W+t+g (in production) massive phase space & \\ \hline \end{tabular} \caption{Processes indicated by choice of the variable {\tt nproc}.\label{nproctable}} \end{center} \end{table}