| Electrically programmable phase-change photonic memory for optical neural networks with nanoseconds in situ training capability M Wei, J Li, Z Chen, B Tang, Z Jia, P Zhang, K Lei, K Xu, J Wu, C Zhong, ... Advanced Photonics 5 (4), 046004, 2023 | 38 | 2023 |
| Monolithic back-end-of-line integration of phase change materials into foundry-manufactured silicon photonics M Wei, K Xu, B Tang, J Li, Y Yun, P Zhang, Y Wu, K Bao, K Lei, Z Chen, ... Nature Communications 15 (1), 2786, 2024 | 11 | 2024 |
| Inverse design of compact nonvolatile reconfigurable silicon photonic devices with phase-change materials M Wei, X Lin, K Xu, Y Wu, C Wang, Z Wang, K Lei, K Bao, J Li, L Li, E Li, ... Nanophotonics 13 (12), 2183-2192, 2024 | 7 | 2024 |
| Performance limits of phase change integrated photonics J Li, Y Yun, K Xu, J Zhang, H Lin, Y Zhang, J Hu, T Gu IEEE Journal of Selected Topics in Quantum Electronics, 2024 | 6 | 2024 |
| High‐Resolution 2D Quasi‐Distributed Optical Sensing with On‐Chip Multiplexed FSR‐Free Nanobeam Cavity Array R Tang, C Sun, K Bao, Z Chen, Z Ju, M Wei, Y Wu, J Wu, K Xu, H Lin, L Li Laser & Photonics Reviews, 2300828, 2023 | 6 | 2023 |
| " Zero change" platform for monolithic back-end-of-line integration of phase change materials in silicon photonics M Wei, K Xu, B Tang, J Li, Y Yun, P Zhang, Y Wu, K Bao, K Lei, Z Chen, ... arXiv preprint arXiv:2308.15723, 2023 | 5 | 2023 |
