原子堆积因子
各向同性
猜想
相变
国家(计算机科学)
统计物理学
班级(哲学)
物理
相(物质)
包装问题
球形填料
过渡点
简单(哲学)
数学
凝聚态物理
组合数学
几何学
热力学
量子力学
计算机科学
核磁共振
认识论
人工智能
哲学
算法
作者
Sam Wilken,R.Castillo Guerra,Dov Levine,P. M. Chaikin
标识
DOI:10.1103/physrevlett.127.038002
摘要
Sphere packing is an ancient problem. The densest packing is known to be a face-centered cubic (FCC) crystal, with space-filling fraction ϕ_{FCC}=π/sqrt[18]≈0.74. The densest "random packing," random close packing (RCP), is yet ill defined, although many experiments and simulations agree on a value ϕ_{RCP}≈0.64. We introduce a simple absorbing-state model, biased random organization (BRO), which exhibits a Manna class dynamical phase transition between absorbing and active states that has as its densest critical point ϕ_{c_{max}}≈0.64≈ϕ_{RCP} and, like other Manna class models, is hyperuniform at criticality. The configurations we obtain from BRO appear to be structurally identical to RCP configurations from other protocols. This leads us to conjecture that the highest-density absorbing state for an isotropic biased random organization model produces an ensemble of configurations that characterizes the state conventionally known as RCP.
科研通智能强力驱动
Strongly Powered by AbleSci AI