发表论文及授权专利

文章来源:集成光子器件实验室 发布者:冯吉军 发布时间:2021-12-21 浏览次数:114

发表文章

1. H. Liu, X. Jiang, Z. Zhang, J. Ge, Q. Sun, J. Li, C. Yang, J. Wang, and J. Feng, “Ultra-compact broadband polarizing beam splitter using a tilted nano-grating-based bridge waveguide,” Optics Express 32(25), 44413-44424 (2024).

2. W. Jiang, J. Feng, S. Yuan, H. Liu, Z. Yu, C. Yang, W. Ren, X. Xia, Z. Wang, and F. Huang, “Sidewall corrugation-modulated phase-apodized silicon grating filter,” Micromachines 15, 666 (2024).

3. W. Ren, Q. Liang, J. Feng, H. Liu, J. Hu, S. Yuan, X. Xia, W. Jiang, Q. Zhan, and H. Zeng, “Free-space beam shaping and steering based on a silicon optical phased array,” Photonics Research 11(12), 2093 (2023).

4. H. Liu, J. Feng, J. Chen, W. Zhou, Q. Bi, and H. Zeng, “Silicon nano-bridge waveguide assisted polarizing beam splitter,” Optics and Laser Technology 167, 109684 (2023).

5. Z. Yu, G. Hu, J. Chen, F. Huang, Y. Zhao, and J. Feng, “Resonant printing flexible piezoresistive pressure sensor with spherical microstructures,” Smart Materials and Structures 32, 035020 (2023).

6. S. Yuan, J. Feng, Z. Yu, J. Chen, H. Liu, Y. Chen, S. Guo, F. Huang, R. Akimoto, and H. Zeng, “Silicon Nanowire-Assisted High Uniform Arrayed Waveguide Grating,” Nanomaterials 13, 182 (2023).

7. 郑继红,冯吉军,光电子技术导论(第2版),ISBN978-7-312-05603-1,中国科学技术大学出版社,2023.

8. Y. Chen, J. Feng, J. Chen, H. Liu, S. Yuan, S. Guo, Q. Yu, and H. Zeng, Optical Bistability in a Tunable Gourd−Shaped Silicon Ring Resonator, Nanomaterials 12, 2447 (2022).

9. J. Chen, J. Feng, H. Liu, W. Chen, J. Guo, Y. Liao, J. Shen, X. Li, H. Huang, and D. Zhang, Femtosecond Laser Modification of Silica Optical Waveguides for Potential Bragg Gratings Sensing, Materials 15, 6220 (2022).

10. J. Yan, J. Feng*, J. Ge, J. Chen, F. Wang, C. Xiang, D. Wang, Q. Yu, and H. Zeng, “Highly Sensitive Humidity Sensor Based on a GO/Co-MOF-74 Coated Long Period Fiber Grating,” IEEE Photonics Technology Letters 34(2), 77-80 (2022).

11. A. Zhang, J. Feng*, J. Yan, M. Hu, L. Zhang, and H. Zeng, “Laser reshaping of gold nanoparticles for highly sensitive SERS detection of ciprofloxacin,” Applied Surface Science 583, 152543 (2022).

12. S. Zhuang, J. Feng*, H. Liu, S. Yuan, Y. Chen, and H. Zeng, “Optical multistability in a cross-coupled double-ring resonator system,” Optics Communications 507, 127637 (2022).

13. H. Liu, J. Feng*, J. Ge, S. Zhuang, S. Yuan, Y. Chen, X. Li, Q. Tan, Q. Yu, and H. Zeng, “Tilted nano-grating based ultra-compact broadband polarizing beam splitter for silicon photonics,” Nanomaterials 11, 2645 (2021).photo1.png

14. Hao Jia, Ao Zhang, Yuquan Yang, Yaqi Cui, Jianrong Xu, Hewei Jiang, Shengce Tao, Dawei Zhang, Heping Zeng, Zhaoyuan Hou,* and Jijun Feng*, “A graphene oxide coated tapered microfiber acting as a super-sensor for rapid detection of SARS-CoV-2,” Lab Chip 21, 2398–2406 (2021).

15. J. Chen, J. Feng*, J. Yan, Q. Yao, and D. Zhang, “Highly sensitive detection of water salinity and surface height using a double fiber grating system fabricated by femtosecond laser,” Optical Fiber Technology 66, 102658 (2021).photo2.png

16. J. Chen, J. Feng*, X. Wu, Y. Zhao, F. Zhang, and D. Zhang, “Multi-layer hollow-core PMMA grating tube waveguides for THz sensing applications,” Optics and Lasers in Engineering 142, 106587 (2021).photo.png

17. X. Wu, J. Feng*, X. Liu, and H. Zeng, “Effects of rapid thermal annealing on aluminum nitride waveguides,” Optical Materials Express 10(12), 3073-3080 (2020).photo3.png

18. J. Pan, S. Zhai, J. Feng*, M. Shi, L. Zhou, G. Cong, R. Akimoto, and H. Zeng, “Double-layer cross-coupled silicon nitride multi-ring resonator systems,” IEEE Photonics Technology Letters 32(5), 227-230 (2020).photo5.png

19. 刘晓腾,冯吉军*,吴昕耀,刘海鹏,张福领,封治华,曾和平基于硅基波导的集成光学相控阵芯片(特邀)[J光子学报,20204911):1149012photo4.png

20. X. Sun, J. Feng*, L. Zhong, H. Lu, W. Han, F. Zhang, R. Akimoto, and H. Zeng, “Silicon nitride based polarization-independent 4×4 optical matrix switch,” Opt. Laser Technol. 119, 105641 (2019). photo7.png

21. S. Zhai, J. Feng*, X. Sun, Y. Huang, L. Zhou, J. He, K. Zhang, G. Cong, R. Akimoto, and H. Zeng, “Dual-layer cross-coupled tunable resonator system in a three-dimensional Si3N4 photonic integration platform,” J. Lightwv. Technol. 37(13), 3298 (2019).photo8.png

22. Y. Liu, J. Feng*, Z. Li, J. Luo, T. Kou, S. Yuan, M. Li, Y. Liu, Y. Peng, S. Wang, and H. Zeng, “Double-groove terahertz chirped grating waveguide tube for gas pressure detection,” Laser Phys. Lett. 16, 056202 (2019).photo9.png

23. H. Xiu, Y. Zhang, J. Fu, Z. Ma, L. Zhao, and J. Feng*, “Degradation behavior of deep UV-LEDs studied by electro-optical methods and transmission electron microscopy,” Current Appl. Phys. 19, 20-24 (2019).photo10.png

24. Q. Cao, J. Feng*, H. Lu, H. Zhang, F. Zhang, and H. Zeng, “Surface-enhanced Raman scattering using nanoporous gold on suspended silicon nitride waveguides,” Opt. Express, 26(19), 24614–24620 (2018).photo11.png

25. S. Zhai, J. Feng*, X. Sun, R. Akimoto, and H. Zeng, “Vertically integrated waveguide self-coupled resonator based tunable optical filter,” Opt. Lett., 43(15), 3766-3769 (2018).

26. J. Feng*, C. Gu, L. Zhong, R. Akimoto, and H. Zeng, “Vertically coupled suspended silicon nitride microdisk based optical sensor,” IEEE Photon. Technol. Lett., 30(17), 1507-1510 (2018).photo12.png

27. Y. Liu, T. Zhu, J. Feng*, S. Yuan, X. Zhao, T. Wu, and H. Zeng, “Single-walled carbon nanotubes assisted THz silicon grating modulator,” Opt. Express, 26(13), 17025–17032 (2018).photo13.png

28. J. Feng*, R. Akimoto, Q. Hao, and H. Zeng, “Three-dimensional cross-coupled silicon nitride racetrack resonator-based tunable optical filter,” IEEE Photon. Technol. Lett. 29 (9), 771-774 (2017).photo14.png

29. Jijun Feng and Ryoichi Akimoto, “BeZnCdSe quantum-well ridge-waveguide laser diodes under low threshold room-temperature continuous-wave operation”, Applied Physics Letters 107, 161101 (2015).

30. Jijun Fengand Ryoichi Akimoto, “Vertically coupled silicon nitride microdisk resonant filters”, IEEE Photon. Technol. Lett. 26, 2391-2394 (2014).

31.  Jijun Feng, Ryoichi Akimoto, Shin-ichiro Gozu, and Teruo Mozume, “All-optical XOR logic gate using intersubband transition in III-V quantum well materials”, Optics Express 22, 12861-12868 (2014).

32. Jijun Feng, Ryoichi Akimoto, Shin-ichiro Gozu, Teruo Mozume, Toshifumi Hasama, and Hiroshi Ishikawa, “Band edge tailoring of InGaAs/AlAsSb coupleddouble quantum wells for a monolithicallyintegrated all-optical switch”, Optics Express 21, 15840-15846 (2013). 

33.  Jijun Feng, Ryoichi Akimoto, Shin-ichiro Gozu, Teruo Mozume, Toshifumi Hasama, and Hiroshi Ishikawa, “Ultrafast all-optical switch with cross-phasemodulation by area-selective ion implantation inInGaAs/AlAsSb coupled double quantum wells”, Optics Express 20, B279-B287 (2012).

34. J. Feng* and Ryoichi Akimoto, “Low-threshold-current yellow BeZnCdSe quantum-well ridge-waveguide laser diodes under continuous-wave room-temperature operation,” Applied Physics Express 9, 012101 (2016).photo16.png

35.  Jijun Feng, Ryoichi Akimoto, and Heping Zeng “Asymmetric silicon slot-waveguide-assisted polarizing beam splitter,” IEEE Photon. Technol. Lett. 28 (12), 1294-1297 (2016).

36. Jijun Feng and Ryoichi Akimoto, “T-shape suspended silicon nitride ring resonator for optical sensing applications”, IEEE Photon. Technol. Lett. 27, 1601-1604 (2015).

37. Jijun Feng and Ryoichi Akimoto, “A three-dimensional silicon nitride polarizing beam splitter”, IEEE Photon. Technol. Lett. 26, 706-709 (2014).

38.  Jijun Feng, Ryoichi Akimoto, Shin-ichiro Gozu, Teruo Mozume, Toshifumi Hasama, and Hiroshi Ishikawa, “Bandgap control for intersubband transition in InGaAs/AlAsSb coupled double quantum wells”, IEEE Photon. Technol. Lett. 25, 1474-1477 (2013).

39.  Jijun Feng and Ryoichi Akimoto, “Silicon nitride polarizing beam splitter with potential application for intersubband-transition-based all-optical gate device”, Jpn. J. Appl. Phys. 54, 04DG08 (2015).

40. J. Feng* and R. Akimoto, “BeZnCdSe quantum-well ridge-waveguide laser diodes under low threshold room-temperature continuous-wave operation,” Applied Physics Letters 107, 161101(2015).photo17.gif

41. H. Jia*, A. Zhang, Y. Yang, Y. Cui, J. Xu, H. Jiang, S. Tao, D. Zhang, H. Zeng, Z. Hou*, and J. Feng*, A graphene oxide coated tapered microfiber acting as a super-sensor for rapid detection of SARS-CoV-2, Lab Chip 21, 2398–2406 (2021).

42. L. Feng, Q. Xue*, F. Liu, Q. Cao, J. Feng*, L. Yang, and F. Zhang, “Voltammetric determination of ofloxacin by using a laser-modified carbon glassy electrode,” Microchimica Acta 187, 86 (2020).


授权专利

1. 冯吉军,刘洋,曾和平,基于三维微环谐振腔的电控可调谐滤波器及制备方法,ZL201611152555.3.

2. 冯吉军,李安原,李敏,曾和平,用于1THz波段的太赫兹偏振分束硅光栅,ZL201610592414.7.

3. 冯吉军,潘俊,孙宇,张福领,梁焰,曾和平,一种硅-铌酸锂异质集成扫描芯片及其制备方法,ZL201811396690.1

4. 冯吉军,仲路铭,张福领,曾和平,一种可见光波段氮化硅光束偏转芯片,ZL201811143021.3

5. 冯吉军,刘洋,张福领,曾和平,一种管状波导光栅传感器及其制备方法,ZL201811282651.9

6. 冯吉军,翟珊,张福领,封治华,曾和平,一种氮化硅三维集成多微腔谐振滤波器件及其制备方法,ZL201810581462.5

7. 冯吉军,仲路铭,张福领,曾和平,一种结构紧凑型氮化硅波分复用光子芯片,ZL201910023555.0

8. 冯吉军,刘晓腾,张福领,曾和平,基于垂直狭缝结构的环境温度无关氮化硅微环滤波芯片,ZL201910521721X

9. 冯吉军,刘海鹏,孙福领,曾和平, 一种基于微纳隔离结构的高密度低串扰波导阵列, ZL202011078336.1

10. 冯吉军,孙晓宇,曾和平, 实现高速的光开关响应的方法及超高速光调制光开关器件, ZL201911362769.7

11. 冯吉军,陈剑, 一种激光制备二氧化硅平面波导布拉格光栅的装置和方法, ZL202210579923.1

12. 陈剑,冯吉军,张大伟,庄松林, 一种基于空心PMMA管符合波导气体传感器, ZL 202010830404.9