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郭天敬
发布时间:2021-05-15 来源:
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名字:郭天敬
 学历:博士
 职务:副研究员(校聘教授)
 学院:空间科学与技术研究院
 电话:


个人简介

郭天敬,女,博士毕业于美国内布拉斯加林肯大学电子工程系,南昌大学空间科学与技术研究院副研究员,硕士生导师,入选江西省“双千计划”引进类创新领军人才(自然科学类青年项目),主持国家自然基金青年项目1项。主要研究方向包括微纳光学、非线性光学、超表面和等离子体等,发表高水平学术论文30余篇,其中以第一作者/通讯作者身份在Nanophotonics, Phys. Rev. Appl., Adv. Photonic Res., Phys. Rev. B, Opt. Lett.等本领域权威期刊发表论文10余篇。邮箱:tianjing@ncu.edu.cn


教育经历

2015年8月∼2020年8月   内布拉斯加林肯大学博士,光学

2012年9月∼2015年7月   南开大学硕士,光学

2008年9月∼2012年7月   山东师范大学大学本科,物理学


工作经历

2020.12∼2021.12    南昌大学   助理研究员

2022.01∼至今         南昌大学   副研究员



研究方向

微纳光学、超材料、超表面、等离子体、非线性光学等

研究项目

1.国家自然科学基金青年项目

2.江西省双千计划(青年项目)


研究成果

1. T. Guo and C. Argyropoulos, Engineered graphene nanostructures and their applications in the terahertz regime, to appear in “Engineered Mediums: Overview and Applications” SPIE Press, USA, 2024.

2. J. Chen, W. Zou, L. Hong, J.g Chen, R. Tang, Y. Shen, T. Guo*, J. Lei*, and X. Deng, Nonreciprocal reflection based on asymmetric graphene metasurfaces, Opt. Express 31, 39811-39820 (2023).

3. T. Guo, and C. Argyropoulos, Hybrid graphene-plasmon gratings, J. Appl. Phys. 134, 050901, (2023). (invited perspective paper)

4. W. Liu; X. Zhou; S. Zou; Z. Hu; Y. Shen; M. Cai; D. Lin; J. Zhou; X. Deng; T. Guo*; J. Lei*; High-sensitivity polarizationindependent terahertz Taichi-like micro-ring sensors based on toroidal dipole resonance for concentration detection of Aβ protein, Nanophotonics, 12, 1177-1187 (2023).

5. R. Luo, B. Zhao, L. Sun, L. Wu, T. Guo, M. Kang, and J. Chen, Tunable high-Q resonance and abnormal phase-shift in P T-symmetric meta-molecules, Opt. Continuum 2, 100-109 (2023).

6. T. Guo*, and C. Argyropoulos*, Nonreciprocal transmission of electromagnetic waves with nonlinear active plasmonic metasurfaces, PRB 106, 235418, (2022).

7. J. Lei, X. Li, M. Cai, T. Guo, D. Lin, X. Deng, and Y. Li. Insights into Allosteric Mechanisms of the Lung-Enriched p53 Mutants V157F and R158L, Int. J. Mol. Sci. 23, 10100(2022).

8. R. Zhou, T. Guo, L. Huang, and K. Ullah, "Engineering the harmonic generation in graphene," Mater. Today Phys. 23, 100649 (2022).

9. J. Yuan, B. Zhao, L. Sun, L. Wu, T. Guo*, M. Kang, and J. Chen*, Optical super-resonance in a customized P T-symmetric system of hybrid interaction, Opt. Express 29, 24663 (2021).

10. T. Guo, C. Argyropoulos, Recent advances in terahertz photonic technologies based on graphene and their applications, Adv. Photonic. Res. 2000168, (2021).

11. T. Guo, C. Argyropoulos, Broadband coherent perfect absorbers with nonlinear and amplification performance based on bifacial asymmetric graphene metasurfaces, J. Opt. 22, 084003 (2020).

12. T. Guo, C. Argyropoulos, Tunable and broadband coherent perfect absorption by ultrathin black phosphorus metasurfaces, JOSA B 36.11, 2962-2971(2019). (OSA亮点文章)

13. T. Guo, B. Jin, and C. Argyropoulos, Hybrid Graphene-Plasmonic Gratings to Achieve Enhanced Nonlinear Effects at Terahertz Frequencies, Phys. Rev. Appl. 11, 024050 (2019).

14. T. Guo, C. Argyropoulos, Tunable nonlinear and active THz devices based on hybrid graphene metasurfaces, Proc. SPIE 10982, Micro- and Nanotechnology Sensors, Systems, and Applications XI, 109821E, 2019. (SCI)

15. S. K. Patel, V. Sorathiya, T. Guo, and C. Argyropoulos, Graphene-based directive optical leaky wave antenna, Microw. Opt. Technol. Lett. 61, 153-157(2019).

16. S. K. Patel, S. Charola, C. Jani, M. Ladumor, J. Parmar, and T. Guo, Graphene-based highly efficient and broadband solar absorber, Opt. Mater. 96(8), 109330 (2019).

17. S. K. Patel, M. Ladumor, J. Parmar, and T. Guo, Graphene-based tunable reflector superstructure grating, Appl. Phys. A 125(8), 574 (2019).

18. T. Guo, L. Zhu, P. Y. Chen, and C. Argyropoulos, Tunable terahertz amplification based on photoexcited active graphene hyperbolic metamaterials [Invited], Opt. Mater. Express 8, 3941-3952 (2018).

19. A. D. Boardman, V. V. Grimalsky, T. Guo, B. Kibler, J. McNiff, I. Nefedov, Y. Rapoport, C. Argyropoulos, C. Valagiannopoulos, Nonlinear waves in hyperbolic metamaterials: focus on solitons and rogues, Proc. SPIE 10671, Metamaterials XI, 106710L, 2018. (EI)

20. S. K. Patel, M. Ladumor, V. Sorathiya, and T. Guo, Graphene based tunable grating structure, Mater. Res. Express 6(2), 025602 (2018).

21. B. Jin, T. Guo, and C. Argyropoulos, Enhanced third harmonic generation with graphene metasurfaces, J. Opt. 19, 094005 (2017).

22. T. Guo and C. Argyropoulos, Broadband polarizers based on graphene metasurfaces, Opt. Lett. 41, 5592-5595 (2016).

23. R. Guo, L. Wu, M. Yang, T. Guo, H. Cui, X. Cao, J. Chen, Nonreciprocal propagating electromagnetic modes without phase gradients, Physical Review A 91 (2), 023808 (2015).

24. T. Guo, T. Li, M. Yan, Q. Guo, H. Cui, X. Cao, and J. Chen, Nonreciprocal Negative Directional Transmission by a Single Layer of Gyromagnetic Cylinders, Opt. Express 22, 537 (2014).

25. T. Guo, L. Wu, M. Yang, R. Guo, H. Cui, and J. Chen, Role of photonic angular momentum states in nonreciprocal diffraction from magneto-optical cylinder array, AIP Advances 4, 077133 (2014).

26. M. Yang, L. Wu, T. Guo, R. Guo, H. Cui, X. Cao, and J. Chen, Photonic angular momentum states in coaxial magneto-optical waveguides, J. Appl. Phys. 116, 153104 (2014).

27. L. Wu, R. Guo, T. Guo, M. Yang, H. Cui, X. Cao, and J. Chen, Study on Zeeman-split spoof surface plasmon polaritons by use of spin-sensitive enhanced electromagnetic transmission, J. App. Phys. 116, 233102 (2014).

28. T. Li, T. Guo, H. Cui, M. Yang, M. Kang, Q. Guo, and J. Chen, Guided Modes in Magneto-Optical Waveguides and the Role in Resonant Transmission, Opt. Express 21, 9563 (2013).

其他