徐谊，男，博士，副研究员，硕士生导师。2019年9月博士毕业于Singapore University of Technology and Design (SUTD)，导师Lay-Kee Ang教授 (IEEE Fellow;  IOP Fellow; IEEE NPSS Distinguished Lecturer)和Wu Lin副教授(SUTD; IHPC, A*STAR)；2020年1月至2021年12月在北京大学物理学院现代光学研究所从事博士后研究工作，合作导师肖云峰教授(杰青)；2021年12月加入桂林电子科技大学光电工程学院。近年来，作为项目负责人，主持了1项中国博士后科学基金面上项目和1项国家自然科学基金青年基金项目。以第一作者或通讯作者在Physical Review A/Applied, Advanced Optical Materials, Optics Express, IEEE Journal of Selected Topics in Quantum Electronics, Journal of Lightwave Technology等国际主流学术期刊发表多篇学术论文，Google学术引用565次(截止2022.10.24)。

研究方向：微纳光学(包括表面等离激元、光学传感等)以及腔光力学。

欢迎对有志于从事科研、对科研感兴趣的物理学、光学及相关专业的本科生报考硕士研究生；同时欢迎对本人研究方向感兴趣的其他学校的本科生、硕士生、博士生以及教师来课题组访问交流。

2015. 09--2019. 09    Singapore University of Technology and Design (SUTD)，博士

2019. 10--2019. 12    北京大学物理学院，访问交流

2019. 08--2019. 09    浙江大学信息与电子工程学院，访问交流

2019. 01--2019. 06    中国科学院大学温州研究院，访问交流

2021. 12--                   桂林电子科技大学光电工程学院，副研究员
2020. 01--2021. 12     北京大学物理学院，博士后
2014. 08--2015. 09     Singapore University of Technology and Design (SUTD)，Research Assistant

期刊审稿人

OSA: Optics Letters, Optics Express, Photonics Research, Optical Materials Express, Journal of the Optical Society of America A/B, Applied Optics, Optics Continuum

Springer Nature: Light: Science & Applications, Nano-Micro Letters, Applied Physics B

APS: Physical Review A/B/Research

AIP: Journal of Applied Physics

IEEE: IEEE Journal of Selected Topics in Quantum Electronics

Wiley: Advanced Optics Materials, Physica Status Solidi (A)

IOP: 2D Materials, Journal of Physics: Condensed Matter, Journal of Physics D: Applied Physics, Nanotechnology, Journal of Optics, Chinese Physics B, Materials Research Express, Physica Scripta

Elsevier: Solar Energy, Optik, Optics Communications, Journal of Quantitative Spectroscopy and Radiative Transfer 

RSC: New Journal of Chemistry

ACS: The Journal of Physical Chemistry,

Taylor & Francis: Critical Reviews in Analytical Chemistry

MDPI: Biosensors, Sensors, Photonics, Materials, Fibers, Optics, Crystals, Applied Sciences

Others: Canadian Journal of Physics

Coatings: Special Issue "Enhanced Thin-Film Application on Sensors", Guest Editors: Dr. Heming Wei, Dr. Yanming Sun, Dr. Yi Xu

本科生教学

《C语言程序设计A》

研究生指导

博士生：杨卫芳 (2020级，导师：张文涛 教授)

硕士生：邵杰 (2022级，导师：韩家广 教授)

2023

22. J. Hou, Y. Xu, S. Sun, X. Zhong, C.-T.Yang^∗, and X. Zhou^∗, “Gold nanoparticles-decorated M13 phage SPR probe for dual detection of antigen biomarkers in serum”, Sensors and Actuators B: Chemical 374, 132811 (2023).

2022

21. Y. Xu^∗ and W. J. Liu^∗, “Fano resonance and slow-to-fast light conversion in a Laguerre-Gaussian rovibrational cavity”, Journal of Lightwave Technology (2022). DOI: 10.1109/JLT.2022.3193061

20.  H. Wang, Y. He^∗, J. Zhang, and Y. Xu^∗, “Highly sensitive refractive index sensor based on the lossy mode resonance enhanced photonic spin Hall effect”, Journal of the Optical Society of America B 39, 2992-2997 (2022).

19. Y. Ge, F. Wang, Y. Yang, Y. Xu, Y. Ye, Y. Cai, Q. Zhang, S. Cai, D. Jiang, X. Liu, B. Liedberg, J. Mao^*, Y. Wang^*, “Atomically thin TaSe₂ film as a high-performance substrate for surface-enhanced raman scattering”, Small 18, 2107027 (2022).

2021及之前

18. J. Zhang, B. Jiang, Y. B. Song, and Y. Xu^∗, “Surface Phonon Resonance enhanced Goos-Hänchen shift and its sensing application in the mid-infrared region”, Optics Express 29, 32973 (2021).

17. Y. Xu^∗, L. Wu, and L. K. Ang, “Ultrasensitive optical temperature transducers based on surface plasmon resonance enhanced composited Goos-Hänchen and Imbert-Fedorov shifts”, IEEE Journal of Selected Topics in Quantum Electronics 27, 4601508 (2021).

16. Y. Xu, J. Y. Liu, W. J. Liu^∗, and Y. F. Xiao, “Nonreciprocal phonon laser in a spinning microwave magnomechanical system”, Physical Review A 103, 053501 (2021). (Editors’ Suggestion)

15. T. Q. Xie, Y. He^∗, Y. F. Yang, H. F Zhang, and Y. Xu^∗, “Highly sensitive surface plasmon resonance sensor based on graphene-coated U-shaped fiber”, Plasmonics 16, 205 (2021).

14. D. Roy, Y. Xu, R. Rajendra, L. Wu, P. Bai^∗, and N. Ballav^∗, “Gold Nanoearbuds: Seed- Mediated Synthesis and the Emergence of Three Plasmonic Peaks”, The Journal of Physical Chemistry Letters 11, 3211 (2020).

13. Y. Xu^∗, L. Wu, and L. K. Ang^∗, “Surface exciton polaritons: a promising mechanism for sensing applications”, Physical Review Applied 12, 024029 (2019).

12. Y. Xu^∗, P. Bai, X. Zhou, Y. Akimov, C. E. Png, L. K. Ang^∗, W. Knoll^∗, and L. Wu^∗, “Optical refractive index sensors with plasmonic and photonic structures: promising and inconvenient truth”, Advanced Optical Materials 7, 1801433 (2019). (Highly Cited Papers)

11. Y. Xu, Y. S. Ang, L. Wu, and L. K. Ang^∗, “High sensitivity surface plasmon resonance sensor based on two-dimensional MXene and transition metal dichalcogenide: a theoretical study”, Nanomaterials 9, 165 (2019).

10. C. T. Yang^#, Y. Xu^#, M. Pourhassan-Moghaddam, D. P. Tran, L. Wu, X. Zhou, and B. Thierry^∗, “Surface Plasmon Enhanced Light Scattering Biosensing: Size Dependence on the Gold Nanoparticle Tag”, Sensors 19, 323 (2019).

9. Y. Xu, C. Y. Hsieh, L. Wu, and L. K. Ang^∗, “Two-dimensional transition metal dichalcogenides mediated long range surface plasmon resonance biosensors”, Journal of Physics D: Applied Physics 52, 065101 (2019).

8. Y. Xu, L. Wu, and L. K. Ang^∗, “MoS₂-based Highly Sensitive Near-infrared Surface Plasmon Resonance Refractive index Sensor”, IEEE Journal of Selected Topics in Quantum Electronics 25, 4600307 (2019).

7. Y. Xu and L. K. Ang^∗, “Guided modes in a double-well asymmetric potential of a graphene waveguide”, Electronics 5, 87 (2016).

6. Y. Xu and L. K. Ang^∗, “Guided modes in a triple-well graphene waveguide: analogy of five-layer optical waveguide”, Journal of Optics 17, 035005 (2015).

5. Y. Xu, Y. He^∗, Y. Yang, and H. Zhang, “Electronic band gaps and transport in Cantor graphene superlattices”, Superlattices and Microstructures 80, 63-71 (2015).

4. Y. Xu, Y. He^∗, and Y. Yang, “Transmission gaps in graphene superlattices with periodic potential patterns”, Physica B: Condensed Matter 457, 188-193 (2015).

3. Y. Xu, Y. He^∗, and Y. Yang, “Resonant peak splitting in graphene superlattices with one- dimensional periodic potentials”, Applied Physics A (Rapid Communication) 115, 721-729 (2014).

2. Y. He^∗, Y. Xu, Y. Yang, and W. Huang, “Guided modes in asymmetric graphene waveguides”, Applied Physics A 115, 895-902 (2014).

1. Y. Xu, Y. He^∗, Y. Yang, “Guide modes in three-dimensional topological insulator waveguide induced by magnetic fields”, Acta Photonica Sinica 42, 564-569 (2013).

1.  国家自然科学基金青年科学基金项目， 项目编号：62205078，项目起止时间：2023.1-2025.12，主持，在研。

2.  中国博士后科学基金面上项目，项目编号：2021M690235，主持，已结题。