Paper Publications
- [11] 11. X. Q. Wu*, and Y. P. Wang*, "A physics-based machine learning approach for modeling the complex reflection coefficients of metal nanowires", Nanotechnology 33, 205701 (2022).
- [12] 12. A. N. Luo, Y. J. Feng, C. Y. Zhu, Y. P. Wang*, and X. Q. Wu*, "Transfer Learning for Modeling Plasmonic Nanowire Waveguides", Nanomaterials 12, 3624 (2022).
- [13] 13. Y. P. Wang*, X. Q. Wu*, and P. Wang, "Asymmetric Cavity Mode Engineering in a Single Plasmonic Nanowire", Journal of Lightwave Technology 39, 5855-5863 (2021).
- [14] 14. Z. Yuan, Y. Zhou, Z. Qiao, C. Eng. Aik., WC. Tu, X. Q. Wu, Y. C. Chen, "Stimulated chiral light–matter interactions in biological microlasers", ACS Nano 15, 8965 (2021).
- [15] 15. X. Li, W. Zhang, W. Y. Wang, X. Q. Wu, Y. Li, X. Tan, D. L. Matera, B. M. Baker, Y. M. Paulus, X. Fan*, and X. Wang*, "Optical coherence tomography and fluorescence microscopy dual-modality imaging for in vivo single-cell tracking with nanowire lasers", Biomedical Optic Express 11, 3659-3672 (2020).
- [16] 16. Z. Yuan, Z. Wang, P. Guan, X. Q. Wu, Y. C. Chen, "Lasing-encoded microsensor driven by interfacial cavity resonance energy transfer", Advanced Optical Materials 8, 1901596 (2020).
- [17] 17. X. Tan, Q. Chen, H. Zhu, S. Zhu, Y. Gong, X. Q. Wu, Y. C. Chen, X. Li, M. Li, W. Liu, and X. Fan*, “Fast and Reproducible ELISA Laser Platform for Ultrasensitive Protein Quantification”, ACS Sensors 5, 110-117 (2020).
- [18] 18. X. Q. Wu†, Q. Chen†, Y. P. Wang, X. Tan, and X. Fan*, "Stable high-Q bouncing ball modes in Fabry-Pérot cavity", ACS Photonics 6, 10, 2470-2478 (2019).
- [19] 19. X. Q. Wu†, Y. P. Wang†, Q. Chen, Y. C. Chen, X. Li, L. M. Tong, and X. Fan*, "High-Q, low-mode-volume microsphere-integrated Fabry-Pérot cavity for optofluidic lasing applications", Photonics Research 7, 50-60 (2019).
- [20] 20. X. Q. Wu, Q. Chen, P. Z. Xu, Y. C. Chen, B. Wu, R. M. Coleman, L. M. Tong, and X. Fan*, "Nanowire lasers as intracellular probes", Nanoscale 10, 9729-9735 (2018).
MOBILE Version