Transforming dark photons into sustainable energy

To produce energy from dark photons γ−, colliding it with Higgs boson particle BR(H → γγ−) under extreme relativistic conditions (ERCs) has been proposed. The Higgs boson BR(H → γγ−) gets excited at extreme relativistic conditions and its quantum field has an extremely short-range weak force which can create electromagnetic field. Thus, it has been assumed that the induction of an electrically charged particle dark photon γ− (non-energy level photon), into these extreme relativistic conditions will create an energy level photon, here named the Hossain dark photon (HDP). To confirm this HDP formation via a dark photon quantum interaction with a Higgs boson particle BR(H → γγ−), a series of mathematical modeling tests using MATLAB software has been performed. Interestingly, these mathematical models revealed that the presence of extra relativistic conditions does transform the dark photon γ− into an HDP for Neff=4.08+0.71−0.68 at a 95% confidence limit considering the parameters of c2eff=0.312±0.026 and c2vis=0.29+0.21−0.16 , respectively. Thereafter, the feasible HDP photon dynamics is also modeled using the atomic spectra contour maps of the Hamiltonian ( H=∑ωcia†iai+∑Kωkb†kbk+∑ik(Vika†bk+V∗ikb†kai) ) which suggested that formation of HDP by a Higgs boson [BR(H → γγ−] particle reaction under extreme relativistic conditions does form high energy level particle to produce electricity.