A sustainable building design technology is being proposed to heat and cool inside the building naturally by using exterior curtain wall to control the solar energy. Simply, the thermal state of photon is being controlled by inducing Bose–Einstein (B–E) discrete photon mechanics and Higgs bosons (H → γγ¯) electro-quantum charge application to cool and heat the building naturally by its exterior curtain wall. Thus, in this research to cool the building naturally, helium (He)-aided curtain wall is being utilized to capture the solar energy to cool the photons by employing Bose–Einstein (B–E) photonic band gap in order to form a cooling-state photon. Here, this cooling-state photon is named as the Hossain Cooling Photon (HcP¯) which is actively functioned to cool the building by the process of photonic thermodynamics. When needed this HcP¯ can be reformed into a heating-state photon here denoted as Hossain Thermal Photon (HtP¯), which is created by Higgs bosons (H → γγ¯) electro-magnetic quantum empowered by a single-diode semiconductor to heat the building naturally. It is because of the Higgs bosons (H → γγ¯) quantum which is being instigated through the extreme low-range weak force which regulates the HcP¯ quantum to get agitated in order to convert it into heating state photon of HtP¯. The formation of HcP¯ and the reformation of HtP¯ have been confirmed by the use of set of computational mathematics. Interestingly the results revealed that the feasibility of reformation of photons (HcP¯ and HtP¯) is positively doable into the exterior curtain wall to cool and heat the building naturally which indeed world be an innovative technology for sustainable building science to mitigate global energy and environmental vulnerability.

中文翻译：

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可持续建筑技术：太阳能热控制以自然冷却和加热建筑物

正在提出一种可持续建筑设计技术，通过使用外幕墙来控制太阳能，在建筑物内部自然加热和冷却。简单地说，光子的热状态是通过诱导玻色-爱因斯坦 (B-E) 离散光子力学和希格斯玻色子 (H → γγ¯) 电量子电荷来控制的，以通过其外幕墙自然地冷却和加热建筑物。因此，在这项自然冷却建筑物的研究中，氦 (He) 辅助幕墙被用来捕获太阳能，通过采用玻色-爱因斯坦 (B-E) 光子带隙来冷却光子，以形成冷却-状态光子。在这里，这种冷却状态的光子被命名为侯赛因冷却光子 (HcP¯)，它通过光子热力学过程积极地起到冷却建筑物的作用。需要时，该 HcP¯ 可以转化为加热态光子，这里表示为 Hossain 热光子 (HtP¯)，它由希格斯玻色子 (H → γγ¯) 电磁量子产生，由单二极管半导体赋予加热建筑自然。这是因为希格斯玻色子 (H → γγ¯) 量子通过极低范围的弱力激发，调节 HcP¯ 量子被搅动，以将其转化为 HtP¯ 的加热态光子。HcP¯的形成和HtP¯的改造已被一组计算数学所证实。