科学家创造了一个碳基分子 半摩比乌斯电子转动 使得新的量子行为成为可能 Scientists created a carbon-based molecule with a half-Möbius electron twist, enabling new quantum behaviors.

科学家创造了第一个具有“半摩比乌斯”电子地形的分子,电子轨道旋转每圈90度,要求四条电路返回起始点。 Scientists have created the first molecule with a "half-Möbius" electronic topology, where electron orbitals twist 90 degrees per loop, requiring four circuits to return to the starting point. C13Cl2碳基C13Cl2分子利用先进的原子操纵,逐原子制造出原子原子,由于其扭曲的电子云,显示出独特的量子行为,通过量子计算模拟和高分辨率显微镜得到证实。 The carbon-based C₁₃Cl₂ molecule, built atom-by-atom using advanced atomic manipulation, exhibits unique quantum behaviors due to its twisted electron cloud, confirmed via quantum computing simulations and high-resolution microscopy. 由IBM和曼彻斯特大学取得的这一突破表明了对电子地形学的精心设计,开创了量子材料和纳米技术的新途径。 This breakthrough, achieved by IBM and the University of Manchester, demonstrates deliberate engineering of electronic topology, opening new pathways in quantum materials and nanotechnology.