Observing light-by-light scattering at the Large Hadron Collider (LHC) has
received quite some attention and it is believed to be a clean and sensitive
channel to possible new physics. In this paper, we study the diphoton
production at the LHC via the process $\rm pp\rightarrow p\gamma\gamma
p\rightarrow p\gamma\gamma p$ through graviton exchange in the Large Extra
Dimension (LED) model. Typically, when we do the background analysis, we also
study the Double Pomeron Exchange (DPE) of $\gamma\gamma$ production. We
compare its production in the quark-quark collision mode to the gluon-gluon
collision mode and find that contributions from the gluon-gluon collision mode
are comparable to the quark-quark one. Our result shows, for extra dimension
$\delta=4$, with an integrated luminosity $\rm {\cal L} = 200 fb^{-1}$ at the
14 TeV LHC, that diphoton production through graviton exchange can probe the
LED effects up to the scale $\rm M_S=5.06 (4.51, 5.11) TeV$ for the forward
detector acceptance $\xi_1 (\xi_2, \xi_3)$, respectively, where
$0.0015<\xi_1<0.5$, $0.1<\xi_2<0.5$ and $0.0015<\xi_3<0.15$.Comment: 25 pages. 7 figs. Change some grammatical error

D d’Enterria

H Sun

Hao Sun

Ingelman

JL Hewett

KM Cheung

MW Krasny

S Kawabata

SC Inan

T Han

VM Budnev

ZU Usubov

English

arXiv

Springer - Publisher Connector

Large extra dimension effects through light-by-light scattering at the CERN LHC

Crossref

The European Physical Journal C

Observing light-by-light scattering at the large hadron collider (LHC) has received quite some attention and it is believed to be a clean and sensitive channel to possible new physics. In this paper, we study the diphoton production at the LHC via the process $${{pp}}\rightarrow {{p}}\gamma \gamma {{p}}\rightarrow {{p}}\gamma \gamma {{p}}$$ through graviton exchange in the large extra dimension (LED) model. Typically, when we do the background analysis, we also study the double Pomeron exchange of $$\gamma \gamma $$ production. We compare its production in the quark–quark collision mode to the gluon–gluon collision mode and find that contributions from the gluon–gluon collision mode are comparable to the quark–quark one. Our result shows, for extra dimension $$\delta =4$$, with an integrated luminosity $$\mathcal{L} = 200\,\mathrm{fb}^{-1}$$ at the 14 TeV LHC, that diphoton production through graviton exchange can probe the LED effects up to the scale $${M}_{S}=5.06 (4.51, 5.11)\,\mathrm{TeV}$$ for the forward detector acceptance $$\xi _1 (\xi _2, \xi _3)$$, respectively, where $$0.0015<\xi _1<0.5$$, $$0.1<\xi _2<0.5$$, and $$0.0015<\xi _3<0.15$$

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Large Extra Dimension effects through Light-by-Light Scattering at the
  CERN LHC

Large Extra Dimension effects through Light-by-Light Scattering at the CERN LHC

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