Tsung-Cheng Lu (Peter)

I am interested in both quantum condensed matter physics and quantum information theory, especially the interplay between these two subjects. Specific topics include entanglement measures, quantum dynamics, and topological phases of matter.
  • Ph.D. in Physics, University of California San Diego, 2015-2021
  • Shimasaki, T., Prichard, M., Kondakci, H. E., Pagett, J. E., Bai, Y., Dotti, P., . . . Weld, D. M. (2024). Anomalous localization in a kicked quasicrystal. Nature Physics, 20(3), 409-414. doi:10.1038/s41567-023-02329-4
  • Lu, T. -C., Zhang, Z., Vijay, S., & Hsieh, T. H. (2023). Mixed-State Long-Range Order and Criticality from Measurement and Feedback. PRX Quantum, 4(3), 030318. doi:10.1103/prxquantum.4.030318
  • Lu, T. -C., & Vijay, S. (2023). Characterizing long-range entanglement in a mixed state through an emergent order on the entangling surface. Physical Review Research, 5(3), 033031. doi:10.1103/physrevresearch.5.033031
  • Foss-Feig, M., Tikku, A., Lu, T. -C., Mayer, K., Iqbal, M., Gatterman, T. M., . . . Kim, I. H. (2023). Experimental demonstration of the advantage of adaptive quantum circuits. arxiv:2302.03029v1
  • Lu, T. -C., Lessa, L. A., Kim, I. H., & Hsieh, T. H. (2022). Measurement as a Shortcut to Long-Range Entangled Quantum Matter. PRX Quantum, 3(4), 040337. doi:10.1103/prxquantum.3.040337
  • Bertini, B., Klobas, K., & Lu, T. -C. (2022). Entanglement Negativity and Mutual Information after a Quantum Quench: Exact Link from Space-Time Duality. Physical Review Letters, 129(14), 140503. doi:10.1103/physrevlett.129.140503
  • Shimasaki, T., Prichard, M., Kondakci, H. E., Pagett, J., Bai, Y., Dotti, P., . . . Weld, D. M. (2022). Anomalous localization and multifractality in a kicked quasicrystal. doi:10.48550/arxiv.2203.09442
  • Lu, T. -C., Kuo, E. -J., & Lin, H. -H. (2022). Entanglement cost in topological stabilizer models at finite temperature. arxiv:2201.08382v1
  • Lu, T. -C., & Vijay, S. (2022). Characterizing Long-Range Entanglement in a Mixed State Through an Emergent Order on the Entangling Surface. arxiv:2201.07792v1
  • Shimasaki, T., Kondakci, H. E., Prichard, M., Pagett, J., Bai, Y., Dotti, P., . . . Weld, D. M. (n.d.). Experimental Realization of the Kicked Aubry-André-Harper Hamiltonian. In Conference on Lasers and Electro-Optics (pp. fm4d.3). Optica Publishing Group. doi:10.1364/cleo_qels.2022.fm4d.3
  • Lu, T. -C., & Grover, T. (2021). Spacetime duality between localization transitions and measurement-induced transitions. PRX Quantum, 2(4), 040319. doi:10.1103/prxquantum.2.040319
  • Quantum order and criticality from measurement and feedback, Northeastern university, Physics, 2023/03/22, Video URL
  • Topological quantum matter and quantum computing, Symmetries Graduate School 2023, 2023/01/31, PIRSA:23010091
  • Topological quantum matter and quantum computing, Symmetries Graduate School 2023, 2023/01/30, PIRSA:23010087
  • Topological quantum matter and quantum computing, Symmetries Graduate School 2023, 2023/01/27, PIRSA:23010086
  • Topological quantum matter and quantum computing, Symmetries Graduate School 2023, 2023/01/26, PIRSA:23010084
  • Measurement as a shortcut to long-range entangled quantum matter, Boston University, Physics, 2022/11/30
  • Measurement as a shortcut to long-range entangled quantum matter, Quantum Matter Workshop, 2022/11/15, PIRSA:22110073
  • Measurement as a shortcut to long-range entangled quantum matter, National Center for Theoretical Sciences, Taipei, Taiwan, 2022/10/26
  • Measurement as a shortcut to long-range entangled quantum matter, NCTS summer school, 2022/08/02
  • Understanding entanglement negativity in topological order at finite temperature, APS March meeting, 2022/01/01
  • Tsung-Cheng (Peter) Lu, Postdoc Welcome 2021, 2021/10/28, PIRSA:21100031