Theory of the condensates produced due to the confinement of the Einstein-spacetime components (i.e. of the neutrino-antineutrino pairs), described within the Scale-Symmetric Theory (SST), shows that some of the spectral lines in the diphoton mass spectrum with invariant mass larger than 200 GeV up to 2000 GeV for proton-proton collisions obtained in the LHC experiments are not due to statistical fluctuation but due to strictly defined phenomena - a new phenomenon needs more than 2-standard deviations and the width/invariant-mass ratio about 0.0265 for two-sigma. Here we described such phenomena within a coherent model for lines with invariant mass about 209 GeV, 742 GeV and 1579 GeV (in previous papers we showed that such model leads to the Higgs boson with a mass of 125 GeV). To explain the spectrum, most important are the atom-like structure of baryons, density of the Einstein spacetime, the quadrupole symmetry and masses of nucleons, pions and the two lightest quarks.