Scattering light by light at 750 GeV at the LHC

Fichet, S.; Gersdorff, Gero von; Royon, C.

doi:10.1103/physrevd.93.075031

Cited by 118 publications

(110 citation statements)

References 45 publications

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“…We therefore present a precise evaluation of the exclusive γγ luminosity, accounting for all physical effects, including the probability of no additional underlying event activity, or so-called survival factor. For photon-mediated processes, this turns out to be quite close to unity, but it cannot be ignored; the treatment of this latter factor is either absent or approximate in other studies such as [3,4]. The uncertainty is found to be very small, at the percent level, allowing the corresponding exclusive cross section to be accurately predicted.…”

Section: Jhep03(2016)182mentioning

confidence: 70%

“…[3,4]. While these give a reasonable estimate of the expected rates, at the ∼ 10-50 % level, a more precise calculation may be needed for future higher statistics studies, provided the excess survives.…”

Section: Jhep03(2016)182mentioning

confidence: 99%

“…One interesting, and in some sense natural possibility, given that this possible excess is only seen so far in the γγ decay channel (and not, for example, in the dijet mass spectrum), is that the resonance may couple dominantly to photons, with the coupling to gluons and other coloured particles being either suppressed or absent entirely. This has been discussed in [3,4] (see also [5][6][7][8][9][10][11][12][13][14][15]), where the γγ induced process in both the usual inclusive and the exclusive modes has been considered. In the latter case the incoming photons are emitted coherently from the colliding protons, which then remain intact after the collision; this will naturally occur in a non-negligible fraction of events.…”

Section: Introductionmentioning

confidence: 99%

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The production of a diphoton resonance via photon-photon fusion

Harland–Lang

Khoze

Ryskin

2016

J. High Energ. Phys.

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Motivated by the recent LHC observation of an excess of diphoton events around an invariant mass of 750 GeV, we discuss the possibility that this is due to the decay of a new scalar or pseudoscalar resonance dominantly produced via photon-photon fusion. We present a precise calculation of the corresponding photon-photon luminosity in the inclusive and exclusive scenarios, and demonstrate that the theoretical uncertainties associated with these are small. In the inclusive channel, we show how simple cuts on the final state may help to isolate the photon-photon induced cross section from any gluongluon or vector boson fusion induced contribution. In the exclusive case, that is where both protons remain intact after the collision, we present a precise cross section evaluation and show how this mode is sensitive to the parity of the object, as well as potential CP -violating effects. We also comment on the case of heavy-ion collisions and consider the production of new heavy colourless fermions, which may couple to such a resonance.

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Section: Jhep03(2016)182mentioning

confidence: 70%

Section: Jhep03(2016)182mentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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The production of a diphoton resonance via photon-photon fusion

Harland–Lang

Khoze

Ryskin

2016

J. High Energ. Phys.

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“…Hence, they roughly cancel out in the gain factors r. We will focus mostly on gg and bb induced processes, which represent the extreme cases as they give the minimum and maximum value of C, and also lead to a large gain in parton luminosity going from 8 to 13 TeV, as needed to fit the data. On the other hand, S production from γγ (see also [10][11][12]) is disfavoured by the small value of r γγ , which has a small uncertainty, because partonic photons are dominantly emitted from u quarks, and their pdf evolution is under good theoretical control.…”

Section: Jhep03(2016)144mentioning

confidence: 99%

“…By inspecting the RG equation and using eq. (3.9) to solve for y f , the constraints from the absence of Landau poles have JHEP03(2016)144 10) with t CUT = ln(Λ CUT /M ) and Λ CUT the scale where the couplings become non-perturbative. Considering that Γ(S → γγ)/M places a lower bound on Y / C f , we see that by increasing the Casimir C f all bounds, besides the one from the Yukawa RG, are either unaffected or made stronger.…”

Section: S As a Su(2) L Singletmentioning

confidence: 99%

What is the γγ resonance at 750 GeV?

Franceschini

Giudice

Kamenik

et al. 2016

J. High Energ. Phys.

229

396

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Run 2 LHC data show hints of a new resonance in the diphoton distribution at an invariant mass of 750 GeV. We analyse the data in terms of a new boson, extracting information on its properties and exploring theoretical interpretations. Scenarios covered include a narrow resonance and, as preliminary indications suggest, a wider resonance. If the width indications persist, the new particle is likely to belong to a strongly-interacting sector. We also show how compatibility between Run 1 and Run 2 data is improved by postulating the existence of an additional heavy particle, whose decays are possibly related to dark matter.

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String consistency, heavy exotics, and the 750 GeV diphoton excess at the LHC

Cvetič

Halverson

Langacker

2016

Fortschritte der Physik

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String consistency conditions are stronger than anomaly cancellation and can require the addition of exotics in the visible sector. We study such exotics and demonstrate that they may account for the modest excess at 750 GeV in recent diphoton resonance searches performed by the ATLAS and CMS collaborations. In a previous analysis of type II MSSM D-brane quivers we systematically added up to five exotics for the sake of satisfying string consistency conditions. Using this dataset, we demonstrate that 89780 of the 89964 quivers have exotics, 78155 of which include singlets that may couple to MSSM or exotic multiplets with coupling structures governed by U (1) symmetries that are often anomalous. We demonstrate that certain sets of exotics are far preferred over others and study the structure of singlet couplings to heavy exotics carrying standard model charges. Typical possibilities include singlets that may decay to vector-like quarks and / or vectorlike leptons and subsequently to two photons. We show that a narrow width diphoton excess can be accounted for while evading existing bounds if multiple exotics are added, with vector-like leptons of mass M L 375 GeV and vector-like quarks with masses up to 3 TeV. However, a large width (Γ/M ∼ 0.06), as suggested by the ATLAS data, cannot be easily accommodated in this framework. Renormalization group equations with GUTscale boundary conditions show that these supersymmetric models are perturbative and stable. Type IIA compactifications on toroidal orbifolds allow for O(10) Yukawa couplings in the ultraviolet. We also discuss the possibility of accounting for the diphoton excess in a low string scale scenario via the decay of string axions.

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Scattering light by light at 750 GeV at the LHC

Cited by 118 publications

References 45 publications

The production of a diphoton resonance via photon-photon fusion

The production of a diphoton resonance via photon-photon fusion

What is the γγ resonance at 750 GeV?

String consistency, heavy exotics, and the 750 GeV diphoton excess at the LHC

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