Top Kinematics

Studies relating to the kinematics of the tops produced from the resonance and their corresponding spectator counterparts.

Figure 3.a

../../../../_images/Figure.3.a2.png

A figure depicting the transverse momenta of spectator and resonance tops.

Figure 3.b

../../../../_images/Figure.3.b2.png

A figure depicting the energy of spectator and resonant tops.

Figure 3.c

../../../../_images/Figure.3.c2.png

A figure depicting the azimuthal angle of spectator and resonant tops.

Figure 3.d

../../../../_images/Figure.3.d2.png

A figure depicting the pseudorapidity of spectator and resonant tops.

Figure 3.e

../../../../_images/Figure.3.e2.png

A two dimensional heat-map of energy against transverse momenta for resonant tops.

Figure 3.f

../../../../_images/Figure.3.f2.png

A two dimensional heat-map of energy against transverse momenta for spectator tops.

Figure 3.g

../../../../_images/Figure.3.g3.png

A distribution plot of the \Delta R between truth-top pairs. For plots with Resonance and Spectator titles, top-pairs are correctly assigned, otherwise they are labelled as a Mixture.

Figure 3.h

../../../../_images/Figure.3.h3.png

A distribution plot of the invariant mass produced when combining truth-top pairs. For plots with Resonance and Spectator titles, top-pairs are correctly assigned, otherwise they are labelled as a Mixture.

Figure 3.j

../../../../_images/Figure.3.j3.png

A two dimensional head-map of the invariant mass as a function of \Delta R. For this plot, all possible truth-top pair permutations are used to compute the invariant mass and the \Delta R.