Research Interests
Computational research on interacting quantum many-body systems.
Education
07.2023 - 05.2025 | University of Wisconsin–Madison | Ph.D. in Materials Science and Engineering |
08.2018 - 06.2023 | University of California, Santa Cruz | Ph.D. candidate |
08.2014 - 06.2018 | University of Science and Technology of China | B.S. in Applied Physics |
Publications
[6] Phonon-Assisted Radiative Lifetimes and Exciton Dynamics from First Principles. (2025)
Guo, C., Riva, G., Simoni, J., Xu, J., & Ping, Y.
arXiv:2504.18071.
[5] Substrate effect on excitonic shift and radiative lifetime of two-dimensional materials. (2021)
Guo, C., Xu, J., & Ping, Y.
Journal of Physics: Condensed Matter, 33(23), 234001. (Emerging Leaders issue)
[4] Substrate screening approach for quasiparticle energies of two-dimensional interfaces with lattice mismatch. (2020)
Guo, C., Xu, J., Rocca, D., & Ping, Y.
Physical Review B, 102(20), 205113. (Editors’ Suggestion)
[3] Effect of environmental screening and strain on optoelectronic properties of two-dimensional quantum defects. (2023)
Zhang, S, Li, K, Guo, C., Ping, Y.
2D Materials 10.3: 035036.
[2] Anisotropic Excitons Reveal Local Spin Chain Directions in a van der Waals Antiferromagnet. (2023)
Kim, D. S., Huang, D., Guo, C., Li, K., Rocca, D., Gao, F. Y., … & Li, X.
Advanced Materials, 2206585.
[1] High-order superlattices by rolling up van der Waals heterostructures. (2021)
Zhao, B., Wan, Z., Liu, Y., Xu, J., Yang, X., Shen, D., Zhang, Z., Guo, C., Qian, Q., Li, J. and Wu, R.
Nature, 591(7850), pp.385-390.