LAUSR

Abstract Conventional heating and cooling systems consume fossil fuels and release toxic gases into the environment, so sustainable heating and cooling systems are urgently needed. To mitigate this perplexity, photon particles are being decoded by the Bose–Einstein ( B-E ) photon distribution mechanism in the Helium assisted glazing wall to cool the building naturally by inducing photonic band-gap of cooling state photons. This cooling-state photon denoted, as the Hossain Cooling Photon ( HcP − ). Once need this HcP − can be transformed into a thermal state photon, denoted as the Hossain Thermal Photon ( HtP − ) formed by Higgs Bosons ( H  →  γγ − ) electromagnetic quantum field utilizing by two diode thermal semiconductor. Because the H  →  γγ − quantum field is initiated by an extremely short-range weak force that enforces the electrically charged HcP − quantum get excited to transform it into an HtP − . The formation of HcP − and the transformation of HtP − are being demonstrated by a series of mathematical tests that confirms the viability of the decoded photons ( HcP − and HtP − ) are actively feasible into the glazing wall to cool and heat the premises naturally.