Green science: Advanced building design technology to mitigate energy and environment

Abstract

A model to produce multiple photons from a single one by ultrarelativistic proton-proton collision within a heavy duty silicon PV panel, which is actually part of a building's exterior glazing wall, has been proposed. It is a simple photophysical reaction technology that will initially create a pair of photons within the solar panel from the reaction of two bare ions, activated by quark-lepton particle interactions. Then, the pair will be scattered by a three diode superconductor silicon surface to create multiple photons. Consequently, a series of mathematical calculations have been performed using MATLAB software regarding the creation of electrons at a bound ionic state (e−e−) of photon-photon collision and photon emission from an ultrarelativistic plasma. Calculative analysis confirms that in the extreme ultrarelativistic condition, a single photon does create photon pairs within the PV panel. The pair is then furthered scattered by the three diode semiconductor to create photons exponentially [1photon = (1+1=2photons) = (2photons +2photons) 3diode = 64photons total]. These naturally created photons can be implemented in PV panel circuit systems to produce DC current, which will then be converted into AC current for utilization as the energy source for that building. The objective of this research is to implement this innovative technology into building sector to meet its total energy demand. Thus, a detailed energy production has also been calculated, which revealed that if a mere 0.025% of the building exterior curtain wall is used as an ultrarelativistic collision solar panel, it will meet the total energy demand for a building that is 100% clean. Naturally application of this technology on a large scale would symbolize a new era in which science could meet the total energy demand in building sectors, which would also mitigate global warming dramatically.