Photon energy amplification for the design of a micro PV panel

Summary To design a micro PV panel, thousands of photons have been produced from a single photon by breaking down its photonic structure using Higgs‐Boson BR (H → γγ¯) quantum field under high temperature conditions. Because the Higgs‐Boson BR (H → γγ¯) Quantum can be excited under high temperature conditions which forms extremely short‐range week force by the photon‐photon collusion of the bare ions; thus, a pair photon ( e + e − ) is created from a single photon. This pair of photon can be dissociated by 2 surface semiconductors of the photovoltaic panel and further dispersed by the 3 diodes superconducting silicon surface to form multiple photons, here named as Hossain Multiple Photons ( HmP¯ ). A mathematical test has been performed by applying MATLAB software, which revealed that production of HmP¯ [1 photon  = (1 + 1 = 2 photons ) = (2 photons  + 2 photons ) 2surface  = 16 photon  = (16 photons ) 3diode  = ∑4,096 photons ] from a single phone is doable through photon‐photon collusion, photon dissociation, and photon scattering process into the Higgs‐Boson BR (H → γγ¯) quantum field under high temperature condition. These multiple photons can be converted from direct current into alternating current for commercial use. Calculation revealed that 1590.9 MW/h clean energy can be produced by merely 1 cm 2 PV panel which indeed would be a new field of science that will substantially satisfy the total global energy demand.