论文标题
非共同量子重力模型上最强的原子物理界限
Strongest atomic physics bounds on Non-Commutative Quantum Gravity Models
论文作者
论文摘要
对Pauli排除原则可能违规的调查代表了微观时空结构和特性的关键测试。时空非交换性为多种量子重力模型提供了一类通用性。在这种情况下,VIP-2铅实验设定了最强的界限,在铅中搜索违反原子过渡的Pauli排除原则,排除了$θ$-PoincaréNontonmuctative量子重力模型,远远超过Planck量表,远远超过了非危险的$θ_{n-election $ ch $ unitalike $ ch $ fiper-c. $ c的$ c. $ c. $ c. $ c.如果$θ_{0i} = 0 $,则10^{ - 2} $ planck缩放。
Investigations of possible violations of the Pauli Exclusion Principle represent critical tests of the microscopic space-time structure and properties. Space-time non-commutativity provides a class of universality for several Quantum Gravity models. In this context the VIP-2 Lead experiment sets the strongest bounds, searching for Pauli Exclusion Principle violating atomic-transitions in lead, excluding the $θ$-Poincaré Non Commutative Quantum Gravity models far above the Planck scale for non-vanishing $θ_{μν}$ ``electric-like'' components, and up to $6.9 \cdot 10^{-2}$ Planck scales if $θ_{0i} = 0$.
