Monte-Carlo tool SANCphot for polarized γ γ collision simulation

Our study of theoretical uncertainties for the four bosons processes at one-loop level including the case of the transverse polarization is presented. The calculations are based on helicity amplitudes approach for 4-boson SM interactions through a fermion and boson loops. The computation takes into account nonzero mass of loop particles. The obtained predictions are equally suitable for a wide range of energies and for arbitrary, including extreme, regions of the phase volume. Uncertainty estimates are received using the new Monte-Carlo tool SANCphot for gamma gamma collision simulation with final states gamma gamma , gamma Z, ZZ adapted for polarized gamma beams.Program summaryProgram Title: sancphot-v1.01CPC Library link to program files: https://doi .org /10 .17632 /5sn9nywv2b .1Licensing provisions: LGPLProgramming language: Fortran, C, C++ Nature of problem: Theoretical calculations at next-to-leading order in perturbation theory allow to compute higher precision amplitudes for Standard Model processes and decays, provided proper treatments of UV divergences and IR singularities are performed.Solution method: Numerical integration of the precomputed differential expressions for polarized photonphoton cross sections of four-boson interaction processes implemented as SANC modules [1]. Additional comments including restrictions and unusual features: Uses subprograms Looptools [2], Cuba [3]. The list of processes is limited to photon-photon, photon-Z and Z-Z collisions.(c) 2023 Elsevier B.V. All rights reserved.