Title: Measurements of top quark properties in CMS: $t\bar{t}$ spin density matrix, quantum entanglement and quantum magic Show Chinese title

Title: 顶夸克性质的CMS测量：$t\bar{t}$自旋密度矩阵，量子纠缠和量子魔术

Abstract: Polarization and spin correlation measurements of top quark-antiquark ($t\bar{t}$) pairs provide tests of the standard model, but also new ways to test quantum mechanics with unstable particles at highest energies ever produced in a laboratory. Recent $t\bar{t}$ spin correlation measurements and the tests they enable, made with the CMS detector at the CERN LHC Run 2, are presented. The measurements summarized include the full spin density matrix measurement of top quark pairs using events with a single lepton and jets in the final state. Spin correlation measurements in specific phase space regions allow the observation of the entanglement phenomenon, and the measurement of quantum magic. From the measured spin correlation at the $t\bar{t}$ production threshold and high $t\bar{t}$ mass, entanglement is observed with a large fraction of the $t\bar{t}$ decays being spacelike separated. The observation of entanglement in $t\bar{t}$ events with two high transverse momentum leptons of opposite charge is also presented. Finally, the first TeV-scale experimental measurement of quantum magic, an important variable for the characterization of quantum states in quantum information science, is presented. These measurements provide one of the first connections between quantum information science and particle physics, and show the potential of collider experiments in the studies of the foundations of quantum mechanics. Show Chinese abstract

Abstract: 顶夸克-反顶夸克($t\bar{t}$)对的极化和自旋关联测量为标准模型提供了测试，同时也为在实验室中产生的最高能量下使用不稳定粒子测试量子力学提供了新方法。 最近利用CERN LHC Run 2的CMS探测器进行的$t\bar{t}$自旋关联测量及其所允许的测试被介绍。 总结的测量包括使用最终态中包含一个轻子和喷注的事件对顶夸克对的完整自旋密度矩阵测量。 特定相空间区域中的自旋关联测量允许观察纠缠现象，并测量量子魔术。 从$t\bar{t}$产生阈值处的测量自旋关联和高$t\bar{t}$质量，观察到纠缠现象，其中$t\bar{t}$的衰变大部分是类空分离的。 还介绍了在$t\bar{t}$事件中观察到的具有两个反号高横向动量轻子的纠缠现象。 最后，介绍了量子魔术的首次TeV尺度实验测量，这是量子信息科学中用于表征量子态的重要变量。 这些测量提供了一种将量子信息科学与粒子物理连接起来的最早联系之一，并展示了对撞机实验在量子力学基础研究中的潜力。