朱程亮�����,男��,1986年2月出生��,博士�,副教授�,博士生導師。
聯系方式
聯系電話:18302478766
電子郵件:zhuchengliang@neuq.edu.cn
研究方向
先進光纖器件與傳感研究室��,面向智能光傳感系統與超大容量光通信系統����,圍繞光纖器件,開展以下方面研究�。
1. 新型光子器件最優化設計與先進制備
2. 光纖傳感理論與智能檢測技術
3. 光子角動量(軌道/自旋)模式生成與應用
4. 特種材料與器件全自動化測試
5. 微波光子學及其傳感應用
教育背景
2006.04-2010.03日本國立靜岡大學系統工學(光電系統)學士(工學)
2010.04-2012.03日本國立靜岡大學系統工學(光電系統)碩士(工學)
2016.10-2019.09日本國立靜岡大學光電子及納米結構科學博士(工學)
工作履歷
2012.04-2016.05 Makita株式會社 日本總部 研發工程師(終身制職員)
2016.10-2019.09 日本國立靜岡大學創造科學技術大學院學術研究員(兼職)
2016.10-2019.09 日本國立靜岡大學工學部研究助手(兼職)
2019.12-至今 威尼斯wnsr9778秦皇島分校副教授
學術兼職
1. 日本華僑華人博士協會會員
2. 中國光學學會(COS)會員
3. 中國自動化學會終身會員
4. The Institute of Electrical and Electronics Engineers (IEEE) 會員
5. Optica Publishing Group會員
6. Institute of Electronics, Information and Communication Engineers (IEICE)會員
7. MDPI SENSORS,Applied Sciences, Frontiers in Sensors期刊編輯
8. Optics Letters���,Optics Express,IEEE/OPTICA Journal of Lightwave Technology���,IEEE Transactions on Instrumentation and Measurement, IEEE Photonics Technology Letters,Infrared Physics and Technology,Measurement, Optics Communications,Optical fiber technology等SCI期刊審稿人。
9. 國家自然科學基金通訊評審人
科研項目
1. 河北省自然科學基金��,面上項目,2024-2026,主持
2. 國家自然科學基金,聯合基金項目,2023-2026,參與
3. 教育部中央高?;緲I務費����,培育項目,2022-2023��,主持
4. 日本文部科學省基盤研究項目B�����,2022-2024�����,參與
5. 國家自然科學基金��,青年項目�����,2021-2023����,主持
6. 河北省教育廳高等學校科學研究��,青年拔尖人才計劃項目��,2021-2023,主持
7. 河北省自然科學基金�,綠色通道項目��,2020-2022���,主持
8. 日本KDDI財團研究助成項目,2019-2020,參與
9. 日本電氣通信普及財團研究助成項目,2018-2019�����,參與
10. 日本板硝子材料工學助成會研究助成項目����,2018-2019�����,參與
11. 日本卡西歐科學振興財團研究助成項目�,2016-2017���,參與
12. 日本電信電話株式會社(NTT)合作研究項目����,2010-2012���,參與
13. 日本文部科學省基盤研究項目C�,2008-2010����,參與
獎勵與榮譽
1. 2019 年度日本電子情報通信學會博士研究獎勵賞,日本電子情報通信學會東海支部�;(日本東海地區唯一獲獎博士)
2. 2019年度Dean's award for graduate school of science and technology, Shizuoka University. (唯一獲獎博士)
3. 2012&2015年度Makita集團全球最佳員工獎(科室全體)
學術成果
【論文、專著與專利等】
研究成果在主流SCI期刊����,如Optics Letters,IEEE/OPTICA Journal of Lightwave Technology, Optics Express, IEEE Transactions on Instrumentation and Measurement���,Optics and Laser Technology�,IEEE Journal of Quantum Electronic, IEEE Photonics Technology Letters等以及IEEE�,OPTICA,SPIE,IEICE等學會舉辦的國際會議發表論文60余篇�,申請日本及中國專利6項,在IEEE/COS PGC、SPIE/COS Photonics Asia��、SPIE IACOP、SPIE OCOIP�����、全國光子學學術會議(中國光學學會纖維光學與集成光學專業委員會)等作特邀報告10余次�����。
【代表性學術論文】
*代表性SCI期刊論文*
[1] Zhu Chengliang*, et al. Femtosecond laser inscribed phase-shifted superstructure FBG and its application to differential-type high refractive index sensor,IEEE/OPTICA Journal of Lightwave Technology,2025, in press.
[2] Zhu Chengliang*,et al. Submillimeter-length single-helix chiral grating in high-NA fiber for robust third-order OAM generation, Optics Letters, 2025, 50(17),5270-5273.
[3] Zhu Chengliang*, et al. High-sensitivity and external RI-independent mode-selectiveMichelson interferometer using a single-ended helical graded-index fiber,IEEE/OPTICA Journal of Lightwave Technology,2025, 43(11),5336-5344.
[4] Zhu Chengliang*,et al. Ultralow-duty-cycle amplitude-sampled LPFG using deep tapering and its application to cross-sensitivity-free multiparameter sensor,IEEE/OPTICA Journal of Lightwave Technology,2025, 43(5),2321-2328.
[5] Zhu Chengliang*,et al. Ultrahigh-channel-count OAM mode conversion utilizing a hybrid few-mode fiber configuration, Optics Letters, 2024, 49(16), 4626-4629.
[6] Zhu Chengliang*,et al. Generation of optical vortex beams with bandwidth exceeding 550 nm using a helical fiber needle exhibiting strong mode coupling, Optics Letters, 2024, 49(10), 2561-2564. 【Editor’s Pick】
[7] Zhu Chengliang*,et al. Deeply-tapered ultrashort long-period fiber grating and its application to ultrasensitive transverse-load sensor. IEEE/OPTICA Journal of Lightwave Technology, 2023,41(18): 6108-6115.
[8] Zhu Chengliang*,et al. Ultra-wideband OAM mode generator based on a helical grating written in a graded-index few-mode fiber. IEEE/OPTICA Journal of Lightwave Technology, 2023,41(5):1533-1538.
[9] Zhu Chengliang*,et al. Miniature temperature-independent curvature sensor based on a phase-shifted long-period fiber grating using deep tapering. IEEE Sensors Journal, 2023, 30(19): 14174-14181.
[10] Zhu Chengliang*,et al. Cross-sensitivity-free highly sensitive torsion and strain sensor based on concatenated DTP-customizable helical fiber gratings. IEEE Sensors Journal, 2023, 23(22): 27423-27430.
[11] ZhuChengliang,et al.On-demand flat-top wideband OAM mode converter based on a cladding-etched helical fiber grating. Optics express, 2023, 31(26): 43477-43489.
[12] Zhu Chengliang,et al. Ultra-broad edge filter based on a periodically twisted graded-index fiber and its application to power-interrogated temperature sensor. Optics express, 2022, 30(19):34776-34786.
[13] Zhu Chengliang*,et al. Reflective-type multiparameter sensor based on a paired helical fiber gratings and a trapezoid-Like micro cavity. IEEE Transactions on Instrumentation and Measurement, 2022, 70, 7001607.
[14] Zhu Chengliang,et al. Optimal design and fabrication of multichannel helical long-period fiber gratings based on phase-only sampling method. Optics express, 2019, 27(3): 2281-2291.
[15] Zhu Chengliang,et al. Multichannel long-period fiber grating realized by using the helical sampling approach. IEEE/OPTICA Journal of Lightwave Technology, 2019, 37(9): 2008-2013.
[1] Zhu Chengliang,et al. Phase-Inserted Fiber Gratings and Their Applications to Optical Filtering, Optical Signal Processing, and Optical Sensing: Review. Photonics, 2022, 9(4): 271.【EDITOR'S CHOICE ARTICLES】
[16] Zhu Chengliang*, et al. Simultaneous measurement of directional torsion and temperature by using a DC-sampled helical long-period fiber grating. Optics and Laser Technology, 2021,142:1-7.
[17] Zhu Chengliang, et al. DC-Sampled Helical Fiber Grating and its Application to Multi-Channel OAM Generator. IEEE Photonics Technology Letters, 2019, 31(17): 1445-1448.
[2] Zhu Chengliang*,et al. Ultra-Broadband OAM Mode Generator Based on a Phase-Modulated Helical Grating Working at a High Radial-Order of Cladding Mode. IEEE Journal of Quantum Electronics, 2021, 57(4): 6800307.
[3] Zhu Chengliang,et al. All-fiber circular polarization filter realized by using helical long-period fiber gratings. IEEE Photonics Technology Letters, 2018, 30(22): 1905-1908.
[4] Zhu Chengliang*,et al. Dual-triangular filter based on an optimized phase-modulated helical fibre grating. Optics Communications, 2022, 503: 127452.
[5] Zhu Chengliang*, et al. Mode-couplings in two cascaded helical long-period fibre gratings and their application to polarization-insensitive band-rejection filter. Optics Communications, 2018, 423: 81-85.
[6] Zhu Chengliang, et al. Enhanced flat-top band-rejection filter based on reflective helical long-period fiber gratings. IEEE Photonics Technology Letters, 2017, 29(12): 964-966.
*代表性會議論文*
[1] Zhu Chengliang*, et al. “All-fiber flat-top orbital angular momentum mode converter realized by a SMF-based helical grating with phase modulation,” SPIE/COS Photonics Asia, 2021, 11902-23.【Invited Paper】
[2] Zhu Chengliang*, et al. “Multichannel long-period fiber grating realized by using the helical sampling approach,” International Conference on Nano Electronics Research Education (ICNERE), 2018, P2-2. 【Invited Paper】
[3] Zhu Chengliang*, et al. “Splice-point-twisted helical photonic crystal fiber for strain-compensated directional torsion sensing,” Opto-Electronics and Communications Conference (OECC), 2025,MC1-4.
[7] Zhu Chengliang*,et al. “High-sensitivity intensity-interrogated temperature sensor based on phase-modulated grating in chalcogenide fiber” International Conference on Optical Fiber Sensors (OFS), 2023, Th6.54.
[8] Zhu Chengliang*,et al. “Wideband and polarization-insensitive band-rejection filter realized by using two cascaded helical long-period fibre gratings” Asia Communications and Photonics Conference (ACP), 2018, 491.
[9] Zhu Chengliang*, et al. “Multichannel helical long-period fiber grating realized by using the DC-sampling approach,” IEICE General Conference, paper: 2019���,C-3-12.
[10] Zhu Chengliang*, et al. “All-fiber circular polarization converter based on utilization of two consecutively-cascaded helical long-period gratings,” IEICE Technical Committee on OptoElectronics, 2018, P3-7.
[11] Zhu Chengliang*, et al. “Polarization-independent flat-top band-rejection filter based on utilization of two successively-cascaded helical long-period fiber gratings,” IEICE Society Conference, 2017, C-3-12.
[12] Zhu Chengliang*,et al. “Characterization of a phase-shifted long-period fiber grating by using the imaging method,” IEICE General Conference, 2017,C-3-40.
[13] Zhu Chengliang,et al. “Coherent MPI Measurement method for Short BIF using Pulsed ASE Test Signal with Delay Reflector,” OptoElectronics and Communications Conference (OECC) 2011, 8B2_6.
[14] 朱程亮,et al. “エルビウムドープ光ファイバ増幅器のASEを光源とするOTDRの実験的検討”,日本電子情報通信學會総合大會, 2011,B-13-36.
【專利】
[1] 朱程亮等,一種超高信道數光纖軌道角動量模式轉換器, 2024,中國, 202411016475X.
[2] 朱程亮, 超寬帶寬光纖邊緣濾波器及功率解調傳感系統, 2022,中國, 202210661137.6.
[3] 朱程亮等, 一種新型長周期光纖光柵差分式強度解調傳感系統, 2021,中國, 202111281011.8.
[4] 朱程亮等, 一種同時測量扭轉�、溫度和應變的反射式光纖傳感器, 2021,中國, 202111259735.2.
[5] 李洪譜;朱程亮,多チャンネルファイバグレーティング、多チャンネルファイバグレーティング製造裝置及び多チャンネルファイバグレーティングの製造方法, 2022,日本, 7182250.
講授課程情況
本科:《光纖通信》(校一流本科課程)��、《科技文獻寫作》
碩士:《論文寫作指導》(河北省研究生示范課程)�、《光纖通信技術》(威尼斯wnsr9778建設課程)
指導研究生情況
畢業生以光學研發崗���、自動化研發崗、嵌入式研發崗等入職華為���、小米、新凱來等企業��;在校期間獲得國家獎學金、智冠深獎學金�、蘇州工業園區獎學金�、威尼斯wnsr9778一等學業獎學金等����。對于志在國際化視野的優秀同學����,有能力向交集的國外學術機構直接推薦���,包括日本國立靜岡大學����、日本電氣通信大學����、日本北海道大學、日本名古屋大學����、英國南安普頓大學等���。
