| 5 | | Use MadGraph/MadEvent to obtain the distributions of %$x_3,x_4$% where %$x_i=2 E_i/M_{3j}$% are the energy fraction of the jets normalized as %$x_3+x_4+x_5=2$%, with %$x_3>x_4>x_5$%, in three-jet events. Consider %$p\bar p$% collisions at 1.8 TeV of c.m.s. Set the minimum %$p_T$% for the jets to 15 GeV, the maximum rapidity of %$3.5$% and the %$\Delta R=0.8$%. Compare your results with the experimental data from CDF, Run I, shown in the Figure below. |
| | 5 | Use MadGraph/MadEvent to obtain the distributions of $x_3,x_4$ where $x_i=2 E_i/M_{3j}$ are the energy fraction of the jets normalized as $x_3+x_4+x_5=2$, with $x_3>x_4>x_5$, in three-jet events. Consider $p\bar p$ collisions at 1.8 TeV of c.m.s. Set the minimum $p_T$ for the jets to 15 GeV, the maximum rapidity of $3.5$ and the $\Delta R=0.8$. Compare your results with the experimental data from CDF, Run I, shown in the Figure below. |
