此帖转自 ReticulumZeta 在 军事天地(Military) 的帖子:完了!重磅,突破性发现!Science 科学杂志发表 通往四维空间的窗口??!!
《科学》重磅,突破性发现!
以色列发现通往四维空间的窗口?
(转载)完了!重磅,突破性发现!Science 科学杂志发表 通往四维空间的窗口??!!
版主: verdelite, TheMatrix
#2 Re: (转载)完了!重磅,突破性发现!Science 科学杂志发表 通往四维空间的窗口??!!
四维后面还有五维, 六维, 七维
人类的科技越来越快 借助人工智能,估计很快一部分人可以跟着地球一起升维了,升维的关键是你要帮助他人 还是利己,目前的这部分知识连冰山一角都算不上,只能说是宇宙中的小学水平
人类的科技越来越快 借助人工智能,估计很快一部分人可以跟着地球一起升维了,升维的关键是你要帮助他人 还是利己,目前的这部分知识连冰山一角都算不上,只能说是宇宙中的小学水平
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#3 Re: (转载)完了!重磅,突破性发现!Science 科学杂志发表 通往四维空间的窗口??!!

Abstract
According to Noether’s theorem, symmetries in a physical system are intertwined with conserved quantities. These symmetries often determine the system topology, which is made ever more complex with increased dimensionality. Quasicrystals have neither translational nor global rotational symmetry, yet they intrinsically inhabit a higher-dimensional space in which symmetry resurfaces. Here, we discovered topological charge vectors in four dimensions (4D) that govern the real-space topology of 2D quasicrystals and reveal their inherent conservation laws. We demonstrate control over the topology in pentagonal plasmonic quasilattices, mapped by both phase-resolved and time-domain near-field microscopy, showing that their temporal evolution continuously tunes the 2D projections of their distinct 4D topologies. Our work provides a route to experimentally probe the thermodynamic properties of quasicrystals and topological physics in 4D and above.
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#4 Re: (转载)完了!重磅,突破性发现!Science 科学杂志发表 通往四维空间的窗口??!!
又是凝聚态里面的准粒子,吹成高维空间,太无耻了TheMatrix 写了: 2025年 2月 26日 20:46
Abstract
According to Noether’s theorem, symmetries in a physical system are intertwined with conserved quantities. These symmetries often determine the system topology, which is made ever more complex with increased dimensionality. Quasicrystals have neither translational nor global rotational symmetry, yet they intrinsically inhabit a higher-dimensional space in which symmetry resurfaces. Here, we discovered topological charge vectors in four dimensions (4D) that govern the real-space topology of 2D quasicrystals and reveal their inherent conservation laws. We demonstrate control over the topology in pentagonal plasmonic quasilattices, mapped by both phase-resolved and time-domain near-field microscopy, showing that their temporal evolution continuously tunes the 2D projections of their distinct 4D topologies. Our work provides a route to experimentally probe the thermodynamic properties of quasicrystals and topological physics in 4D and above.