The measured differential cross sections for $P_T(\gamma\gamma)$ , together with the predictions from the Sherpa and NNLO Monte Carlos.

The measured differential cross sections for $P_T(\gamma\gamma)$, when $P_T(\gamma\gamma) > M(\gamma\gamma)$ , together with the predictions from the Sherpa and NNLO Monte Carlos.

The measured differential cross sections for $P_T(\gamma\gamma)$, when $P_T(\gamma\gamma) < M(\gamma\gamma)$ , together with the predictions from the Sherpa and NNLO Monte Carlos.

The measured differential cross sections for $\Delta\Phi(\gamma\gamma)$ , together with the predictions from the Sherpa and NNLO Monte Carlos.

The measured differential cross sections for $\Delta\Phi(\gamma\gamma)$, when $P_T(\gamma\gamma) > M(\gamma\gamma)$ , together with the predictions from the Sherpa and NNLO Monte Carlos.

The measured differential cross sections for $\Delta\Phi(\gamma\gamma)$, when $P_T(\gamma\gamma) < M(\gamma\gamma)$ , together with the predictions from the Sherpa and NNLO Monte Carlos.

The measured differential cross sections for $y(\gamma\gamma)$, the rapidity of the diphoton system , together with the predictions from the Sherpa and NNLO Monte Carlos.

The measured differential cross sections for $y(\gamma\gamma)$, the rapidity of the diphoton system, when $P_T(\gamma\gamma) > M(\gamma\gamma)$ , together with the predictions from the Sherpa and NNLO Monte Carlos.

The measured differential cross sections for $y(\gamma\gamma)$, the rapidity of the diphoton system, when $P_T(\gamma\gamma) < M(\gamma\gamma)$ , together with the predictions from the Sherpa and NNLO Monte Carlos.

The measured differential cross sections for $E_T^{\gamma 2}/E_T^{\gamma 1}$ , together with the predictions from the Sherpa and NNLO Monte Carlos.

The measured differential cross sections for $E_T^{\gamma 2}/E_T^{\gamma 1}$, when $P_T(\gamma\gamma) > M(\gamma\gamma)$ , together with the predictions from the Sherpa and NNLO Monte Carlos.

The measured differential cross sections for $E_T^{\gamma 2}/E_T^{\gamma 1}$, when $P_T(\gamma\gamma) < M(\gamma\gamma)$ , together with the predictions from the Sherpa and NNLO Monte Carlos.

The measured differential cross sections for the cosine of the polar angle of the leading photon in the Collins-Soper frame , together with the predictions from the Sherpa and NNLO Monte Carlos.

The measured differential cross sections for the cosine of the polar angle of the leading photon in the Collins-Soper frame, when $P_T(\gamma\gamma) > M(\gamma\gamma)$ , together with the predictions from the Sherpa and NNLO Monte Carlos.

The measured differential cross sections for the cosine of the polar angle of the leading photon in the Collins-Soper frame, when $P_T(\gamma\gamma) < M(\gamma\gamma)$ , together with the predictions from the Sherpa and NNLO Monte Carlos.

The measured differential cross sections for $\eta_1-\eta_2$, the diffrence in photon pseudorapidities , together with the predictions from the Sherpa Monte Carlo.

The measured differential cross sections for log$_{10}$ ($P_T(\gamma\gamma)/M(\gamma\gamma))$ , together with the predictions from the Sherpa Monte Carlo.

The measured differential cross sections for $\Delta R(\gamma\gamma)$ where $\Delta R(\gamma\gamma)^2 = \Delta \Phi(\gamma\gamma)^2 + (\eta_1-\eta_2)^2$ , together with the predictions from the Sherpa Monte Carlo.

The measured differential cross sections for the photon $E_T$ (two entries per event) , together with the predictions from the Sherpa Monte Carlo.

The measured differential cross sections for the photon $\eta$ (two entries per event) , together with the predictions from the Sherpa Monte Carlo.