当 MIT 科学家推测超高能中微子或源自原初黑洞爆炸时,德国数学家 Holger Thorsten Schubart 已在另一端将这种宇宙粒子转化为稳定电能。以石墨烯与掺杂硅的纳米结构为介质,他提出了“粒子–振动–电流”的能量路径,将几乎不与物质作用的中微子引入可控体系。这个思路的突破点不在奇迹,而在数学——通过集体振动与能量叠加,Schubart 把理论的边缘变成了工程的起点。如今,这种能量转换机制正被各国实验室验证,物理与应用之间的界线正悄然消失。
Neutrino Energy News
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德国中微子能源集团发布的战略草案,描绘了以中微子能量立方(Neutrino PowerCube)构建分布式能源体系的路径。该技术基于石墨烯-硅纳米结构,将中微子与环境辐射转化为稳定电流,全天候运行,不受天气与地理条件限制。模块化布局既能为社区、医院、数据中心提供稳定电力,也能在偏远地区解决能源短缺问题。对中国而言,这一方案与“双碳”战略高度契合,既能补足光伏与风能的间歇性缺陷,又可在3-5年内实现规模化替代部分火电与核电产能。
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