The Scale-Symmetric Theory (SST) leads to the atom-like structure of baryons containing the core (it is composed of entangled or/and confined Einstein-spacetime components) that is the modified black hole in respect of the nuclear strong interactions. The structure of the core leads to conclusion that at high energy proton-proton collisions we should detect 25% more electrons than muons. On the other hand, at the LHC Physics conference in New York City (June 2014), the LHCb collaboration announced that probably there appear 25% more electrons than muons. In the Standard Model the electrons and muons (in the SST as well) are the particles of the same type so number of electrons and muons should be the same. The 25 percent excess of electrons follows from the internal structure of the core of baryons described within SST whereas within the Standard Model such excess is incomprehensible i.e. suggests existence of new physics.