陈天 - 北京理工大学

个人简介

教育经历 2013 – 2014 美国斯蒂文森理工学院访问学者 2010 – 2015 清华大学物理系博士 2006 – 2010 南开大学物理学院学士工作经历 2015 – 2018 北京理工大学物理学院讲师 2018 – 至今北京理工大学物理学院副教授

研究领域

拓扑相及相应性质研究。探索晶格模型中相应拓扑性质的刻画与描述，结合拓扑物理的相应性质应用于量子信息技术，拟实现有效的拓扑量子计算量子随机行走性质研究。一方面基于量子随机行走系统来模拟拓扑系统的性质；另一方面利用量子随机行走系统来实现有效的量子信息传输过程

近期论文

查看导师新发文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

Electrical circuit realization of topological switching for the non-Hermitian skin effect A New Type of Classical Logic Circuit with Exponential Speedup Transmission and transformation of entangled states with high fidelity in a non-Hermitian system Topolectrical-circuit realization of quadrupolar surface semimetals Exploring topological phase transition andWeyl physics in five dimensions with electric circuits Exploring topological phase transition and Weyl physics in five dimensions with electric circuits N th power root topological phases in Hermitian and non-Hermitian systems Topolectrical circuit realization of quadrupolar surface semimetals Fast quantum search of multiple vertices based on electric circuits Back Cover: Electric‐Circuit Simulation of Quantum Fast Hitting with Exponential Speedup (Adv. Quantum Technol. 4/2022) Fast quantum search driven by environment engineering The quantum search of many vertices on the joined complete graph Electric‐Circuit Simulation of Quantum Fast Hitting with Exponential Speedup Observation of hybrid higher-order skin-topological effect in non-Hermitian topolectrical circuits Creation of electrical knots and observation of DNA topology Electric-Circuit Realization of Fast Quantum Search Non-Hermiticity-induced quantum control of localization in quantum walks Topological Photonics: Observation of Novel Robust Edge States in Dissipative Non‐Hermitian Quantum Walks (Laser Photonics Rev. 14(7)/2020) Observation of Novel Robust Edge States in Dissipative Non‐Hermitian Quantum Walks Experimental observation of classical analogy of topological entanglement entropy State-independent contextuality in classical light Long-lived quantum speedup based on plasmonic hot spot systems Experimental Observation of Topologically Protected Bound States with Vanishing Chern Numbers in a Two-Dimensional Quantum Walk Characterization of topological phases and selection of topological interface modes in the parity-time-symmetric quantum walk Deterministic quantum controlled-PHASE gates based on non-Markovian environments Controlling the probability transfer in the discrete time quantum walk with the modulation of the symmetries Quantum sensing of noises in one and two dimensional quantum walks Accurately identifying mode indices of Laguerre–Gaussian beams via weak measurements Ultrafast coherent energy transfer with high efficiency based on plasmonic nanostructures Extraordinary behaviors in a two-dimensional decoherent alternative quantum walk The defect-induced localization in many positions of the quantum random walk On-demand single-photon sources via quantum blockade and applications in decoy-state quantum key distribution Thermal Rectification in the Nonequilibrium Quantum-Dot-System Fast cooling in dispersively and dissipatively coupled optomechanics Improving Cooling performance of the mechanical resonator with the two-level-system defects Crossover Between Non-Markovian and Markovian Dynamics Induced by a Hierarchical Environment Extracting work from magnetic-field-coupled Brownian particles Non-Markovian dynamics of open quantum systems without rotating wave approximation Dynamic control of quantum geometric heat flux in a nonequilibrium spin-boson model