簡介

學歷

• 國立交通大學 電子物理系 博士  2010年 ~ 2015
• 國立成功大學 物理系 學士  2006年 ~ 2010

現職及經歷

• 國立台北科技大學 光電工程系 副教授 2025 ~ 至今
• 國立台北科技大學 光電工程系 助理教授 2020 ~ 2025
• 國家實驗研究院國家太空中心 助理研究員 2018 ~ 2020
• 日本千葉大學融合理工學府 助理教授 2017年 ~ 2018
• 國立交通大學電子物理系 博士後研究 2015年 ~ 2017

授課課程

• 物理
• 物理實驗
• 光電科技概論
• 雷射導論
• 雷射原理與應用
• 實務專題

研究領域

• 雷射物理 Laser Physics
• 固態雷射光源 Solid-State Laser Sources
• 光學圖斑形成 Optical Pattern Formation
• 光學角動量技術 Optical Angular Momentum Technology
• 量子物理 Quantum Physics

研究計畫

• 2023 ~ 2026 國科會研究計畫【計畫名稱：研究固態拉曼雷射中非線性結構奇異光的空間、偏振與時間動力學】
• 2021 ~ 2023 國科會研究計畫【計畫名稱：研究腔內固態受激拉曼散射產生高功率橘–黃–綠光雷射】

獲獎殊榮

• 國立臺北科技大學電資學院113年度傑出研究獎 (2024)
• 國立臺北科技大學110學年度優良導師獎 (2022)

發表論文

1. J. C. Tung*, B. H. Chen, C. K. Sung, and J. M. Chen, “Vortex-antivortex dynamics and interactions of laser beams generated by second harmonic generation during astigmatic transformation,” Opt. Express, 33(6), 13472-13480 (2025).
2. Y. Song*, S. Huang, Z. Wang, J. H. Lin*, and J. C. Tung*, “High-Performance Tunable Vector Soliton Pulse Generation in Thulium-Holmium Co-Doped Fiber Lasers Utilizing a HNLF-GIMF Saturable Absorber,” Journal of Lightwave Technology, 43(10), 4988-4994 (2025).
3. Y. F. Chen*, Y. H. Fang, J. C. Tung, X. L. Zheng, and H. C. Liang, “Manifesting the connection between Laguerre-Gaussian modes and hypotrochoid modes from quantum Fock-Darwin system,” Opt. Express, 33(3), 5209-5226 (2025).
4. H. C. Liang*, Y. H. Fang, X. L. Zheng, K. H. Hu, and J. C. Tung*, “Exploring orthogonally dual polarizations nonplanar circular modes in solid-state lasers: experimental generation and theoretical representation,” Opt. Express, 33(1), 322-329 (2025).
5. J. C. Tung*, B. H. Chen, and C. K. Sung, “Characterizing the propagation evolution of optical vortex lattices in astigmatic transformations of frequency-doubled laser modes,” Opt. Express, 32(16), 27989-27998 (2024).
6. J. C. Tung*, B. H. Chen, and C. K. Sung, “Adjustable rotation of multiple vortices produced by diode-pumped Nd:YVO4 lasers using intracavity second harmonic generation,” Opt. Express, 31(24), 40836-40844 (2023).
7. Y. F. Chen*, W. C. Chung, X. L. Zheng, M. X. Hsieh, J. C. Tung, and H. C. Liang, “Orbital angular momentum densities in the astigmatic transformation of Lissajous geometric laser modes,” Opt. Lett. 48(7), 1818-1821 (2023).
8. J. C. Tung*, P. L. Li, and M. H. Hou, “Investigating the generation and propagation evolution of orange optical vortices using continuous-wave KGW Raman lasers with astigmatic mode transformations,” Opt. Express, 30(19), 34557- 34565 (2022).
9. J. C. Tung, H. T. Ke, H. C. Liang, K. F. Huang, and Y. F. Chen*, “Structured transverse modes governed by maximum entropy principle,” Opt. Lett. 47(15), 3756-3759 (2022).
10. J. C. Tung*, K. W. Liu, and S. C. Chen, “Generating multiple optical vortices in orange beams induced by selectively pumped frequency-doubled solid-state Raman lasers with mode conversion,” Opt. Lett. 47(4), 945-948 (2022).

1. C. K. Sung, and J. C. Tung*, “Investigating the optical vortex lattices under astigmatic transformations in frequency-doubled laser modes,” Optics & Photonics Taiwan International Conference  (OPTIC), No. P0302-P009, Taipei, Taiwan (2024).
2. J. C. Tung*, C. K. Sung, and B. H. Chen, “Exploration of dynamical multiple optical vortices generated from frequency-doubled laser beams,” Laser Applications Conference (LAC) of Laser Congress and Exhibition 2024, ISBN: 978-1-957171-42-5, Osaka, Japan (2024).
3. B. H. Chen, C. K. Sung, and J. C. Tung*, “Investigating vortex structures in astigmatic transformations of frequency-doubled Hermite-Gaussian beams,” Annual Meeting of the Physical Society of Taiwan, No. P1-OP-014, Taoyuan, Taiwan (2024).
4. J. C. Tung*, S. C. Chen, and M. H. Hou, “Polarization characteristics of Raman scattering in KGW Raman laser crystals by polarized incident light,” 2023 Conference on Lasers and Electro-Optics Europe & European Quantum Electronics Conference (CLEO/Europe-EQEC), ISBN 979-8-3503-4599-5, Munich, Germany (2023).
5. J. C. Tung*, B. H. Chen, and M. C. Lin, “Multiple optical vortex beams generated by frequency-doubled Nd:YVO4/KGW Raman lasers at 588 nm,” Optical Manipulation and Structured Materials Conference (OMC) of Optics & Photonics International Congress (OPIC), ISBN 978-151066339-8, Yokohama, Japan (2023).
6. J. C. Tung*, P. L. Li, and M. H. Hou, " Exploring the formation of robust optical vortices in the propagation of orange Raman lasers," Applications of Lasers for Sensing and Free Space Communications (LS&C) of Laser Congress and Exhibition 2022, ISBN 978-1-957171-20-3, Barcelona, Spain (2022).
7. P. L. Li, M. H. Hou, and J. C. Tung*, “Generating the robustness of discrete optical vortices in Raman lasers,” Optics & Photonics Taiwan, International Conference (OPTIC) No. 2022-SUN-P0302-P008, Taoyuan, Taiwan (2022).
8. M. H. Hou, P. L. Li, and J. C. Tung*, “Investigating polarization-resolved Raman spectrum of KGd(WO4)2 crystal,” Optics & Photonics Taiwan, International Conference (OPTIC) No. 2022-SUN-P0302-P009, Taoyuan, Taiwan (2022).
9. K. W. Liu, S. C. Chen, and J. C. Tung*, “Exploring multiple optical vortices generated by frequency-doubled Raman lasers with mode conversion,” Optics & Photonics Taiwan, International Conference (OPTIC), No. 2021-FRI-P0301-P002, Kaohsiung, Taiwan (2021).
10. S. C. Chen, K. W. Liu, and J. C. Tung*, “Controlling orange multiple optical vortices by using Raman lasers with astigmatic transformation,” Optics & Photonics Taiwan, International Conference (OPTIC), No. 2021-FRI-P0301-P003, Kaohsiung, Taiwan (2021).