物理
量子几何学
量子
希尔伯特空间
几何学
联轴节(管道)
声子
量子力学
空格(标点符号)
量子相
量子过程
量子态
开放量子系统
量子操作
量子技术
球面几何
量子耗散
经典力学
量子模拟器
量子系统
量子光学
量子动力学
量子算法
表征(材料科学)
波函数
Crystal(编程语言)
量子信息
几何相位
作者
Jiaming Hu,Wenbin Li,Zhichao Guo,Hua Wang,Kai Chang
摘要
Quantum geometry is crucial for understanding intricate condensed matter systems, governing transport phenomena and optical responses. However, traditional studies of quantum geometry predominantly consider a static crystal lattice, focusing exclusively on the pure-electronic quantum geometry of the Hilbert space parametrized by electronic wave vectors, thereby overlooking the dynamic effects arising from phonons and their coupling with electrons. In this Letter, we reveal the intrinsic quantum geometry of the electron-phonon coupling (EPC), which resides in the hybrid Hilbert space parametrized by both the electronic wave vectors and phonon displacements. The EPC quantum metric, EPC Berry curvature, and EPC shift vector, as central elements, quantify the EPC-induced velocity, polarization, and anomalous charge-center shift, respectively. We further connect this geometry to phonon-mediated optical responses, particularly in-gap resonances, enabling experimental detection and characterization of EPC quantum geometry.
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