Photonic thermal control to naturally cool and heat the building

Photon particle has been modeled to be decoded by the curtain wall of the building to create a natural cooling and heating system for a building by implementing the Bose-Einstein (B-E) photon distribution mechanism into Helium assisted building curtain wall where the photonic band gap state photon will be locally induced to cool the building naturally by the cooling state of the photons. This cooling state photon, denominated as Hossain Cooling Photon (HcP−). Once needed, this (HcP−) can be transformed into thermal state photon by implementing the quantum Higgs Boson BR(H → γγ−) to create the electromagnetic field (EmF) using two diode thermal semiconductors. Just because Higgs boson BR (H → γγ) quantum field has extremely short range of weak force that initiates Higgs Boson BR (H → γγ) quantum get excited. Therefore, electrically charged cooling state photon (HcP−) will be transformed into a thermal stage photon, referred to here as the Hossain Thermal Photon (HtP−). To confirm this HcP− formation and transformation it into HtP−, a series of mathematical tests has been performed which revealed that formation and transformation of HcP− and HtP− are indeed doable to decode the photons into the curtain wall to cool and heat the building naturally.