发明专利：   

（1） 朱宏娜，常相辉，石剑虹，杨春蕾，一种基于微结构光纤的光纤参量放大器，发明专利，授权时间：2012.12.26，中国，授权号：ZL201010288742.0  

（2） 朱宏娜，罗斌，潘炜，闫连山，项水英，温坤华，采用相移光栅提高光纤参量放大器增益的方案及装置，发明专利，申请日期：2012.2.24，申请号：201210043568.2，公告号：CN102540623A.  

（3） 朱宏娜，罗斌，赵建朋，潘悦梅，项水英，常相辉，过滤闲频光实现增益优化的单泵浦光纤参量放大器，发明专利，申请日期：2012.7.13，申请号：201210241500.5，公告号：CN102722060A.  

（4） 朱宏娜，罗斌，潘炜，闫连山，赵建朋，彭华，李晗，李金龙，一种基于级联结构的提高光纤的光纤参量放大器增益的装置，发明专利，申请日期：2012.11.8，申请号：201210441397.9， 公告号：CN102890384A  

（5） 项水英，潘炜，江宁，朱宏娜，“一种能隐藏反馈时延特性的激光混沌信号产生装置”，发明专利，授权号：ZL201110236847.6

（1） Hongna Zhu, Bin Luo, Wei Pan, Lianshan Yan, Shuiying Xiang, Kunhua Wen. Gain enhancement of fiber optical parametric amplifier via introducing phase-shifted fiber-Bragg-grating for phase matching. J. Opt. Soc. Am. B. 2012, 29(6): 1497-1502. (SCI).  

（2） Hongna Zhu, Bin Luo, Li Wang, Wei Pan, Lianshan Yan, Jianpeng Zhao,Xiaorong Gao, Zeyong Wang. Gain optimization of one-pump fiber optical parametric amplifier with optical band pass filter reducing the idler wave. Opt. Eng. 2012, 51(9):095003. (SCI)  

（3） Hongna Zhu, Bin Luo, Wei Pan, Lianshan Yan, Shuiying Xiang, Kunhua Wen, Li Wang. Gain characteristics of two-pump fiber optical parametric amplifier based on a photonic crystal fiber with pump depletion. Optoelectron. Adv. Mater. -Rapid Commun. 2012, 6(9):800-803. (SCI)  

（4） Zhu Hong-Na, Luo Bin, Pan Wei, Yan Lian-Shan, Zhao Jian-Peng, Wang Ze-Yong, Gao Xiao-Rong. Gain Improvement of Fiber Parametric Amplifier via Introducing Standard Single-mode Fiber for Phase Matching. Chinese Physics Letters. 2013, 30(7). 074206. (SCI).  

（5） Hongna Zhu, Sen Wu, Yuxi Zhou, Qinji Xiong, Qiuyun Zhang. 320Gbit/s all optical wavelength conversion using nonlinear polarization rotation in a semiconductor optical amplifier. Proceedings of SPIE. 2010. (EI)  

（6） Hongna Zhu, Li Wang, Bin Luo, Xiaorong Gao, Zeyong Wang. Bandwidth Optical Parametric Amplifier by Using Photonic Crystal Fiber with Pump Depletion. Proceedings of SPIE. 2012. (EI).  

（7） Hongna Zhu, Bin Luo, Jianpengzhao, Xiaorong Gao, Zeyong Wang. Pump-to-signal Transfer Improvement of Fiber Optical Parametric Amplifier with Fiber Bragg Grating Reducing the First-order Idler Wave( EI)  

（8） 赵建朋，罗斌*，潘炜，闫连山，朱宏娜，邹喜华，叶佳，光纤参量放大增益谱边带快慢光特性研究，物理学报，63(4)，044203-1，2014.(SCI).  

（9） K. Wen, L. Yan, W. Pan, B. Luo, X. Zou, and H. Zhu, Design of multi-channel optical code-division multiple-access encoders and decoders based on sampled fiber Bragg gratings. Optik. 2011, 122:2249-2251. (SCI)  

（10） S. Y. Xiang, W. Pan, B. Luo, L. Yan, X. Zou, N. Jiang, N. Li, and H. Zhu. Message encoding/decoding using unpredictability-enhanced chaotic VCSELs . Photonics Technology Letters.2012, 4(15):1267-1269. (SCI)  

（11） S. Y. Xiang, W. Pan, B. Luo, L. Yan, X. Zou, N. Jiang, N. Li, and H. Zhu. Wideband unpredictability-enhanced chaotic semiconductor lasers with dual-chaotic optical injections. IEEE Journal of Quantum Electronics. 2012, 48(8): 1069-1076. (SCI)  

（12） S. Y. Xiang, W. Pan, B. Luo, L. Yan, X. Zou, N. Jiang, L. Yang, and H. Zhu. Unpredictability-enhanced chaotic vertical-cavity surface-emitting lasers with variable-polarization optical feedback. IEEE/OSA Journal of Lightwave Technology. 2011, 29(14): 2173-2179. (SCI)  

（13） S. Y. Xiang, W. Pan, B. Luo, L. Yan, X. Zou, N. Jiang, L. Yang, and H. Zhu. Conceal time-delay signature of chaotic vertical-cavity surface-emitting lasers by variable-polarization optical feedback. Optics Communication. 2011, 284: 5758-5765. (SCI)  

（14） 杨慧敏，朱宏娜， “光纤中的交叉相位调制不稳定性研究”，光通信研究，2008.1(145)：29-32.  

（15） Lijun Zhao, Tingshuai Li, Yadong  Xia, Hongna Zhu*, Chuanke Wang, Feng Wang, Shaoen Jiang, Effective electromagnetic shielding with multi-layer structure material on Shenguang laser facility, Plasma Science & Technology, 2020, 22(2): 025601. 

（16） 朱宏娜，常相辉，吴晓立， “CCD技术在大学物理实验教学中的应用”，实验科学与技术，2010年第8卷第4期.

（17） Hongna Zhu, Zhenyu Zhu, Peipei Li, Xiaorong Gao, Albalawi Ali, Taccheo Stefano, Yi Tao^*, The Analysis and Optimization of Broadband Fiber Optical Parametric Amplifiers Pumped by Chirped Pulses, IEEE Journal of selected topics in Quantum Electronics,2019,25(4):3100108.

（18）Peipei Li, Hongna Zhu ^*, Stefano Taccheo, Xiaorong Gao, Zeyong Wang, Optimized design of six-wavefiber optical parametric amplifiers by using a genetic algorithm, Applied Optics, 2017.5.20, 56(15):4406-4411.

（19） 隋皓，高晓蓉，罗林，朱宏娜^*，钟云杰，激光点源与线源激发表面波与钢轨缺陷作用的有限元仿真和实验研究，激光与光电子学进展，2019,56(8):081201

（20） Peng Hua, Peng Jianping, Zhu Hongna^*, Wang Zeyong, Gao Xiaorong, The efficiency optimization of full matrix capture imaging detection based on increasing the effectiveaperture.11th IEEE Far East Forum on Nondestructive Evaluation/Testing - New Technology and Application (FENDT),2014,Chengdu, P.R. China,2014.06.20-06.23

（21） Hongna Zhu^*, Bin Luo, Wei Pan, Lianshan Yan, Shuiying Xiang, Kunhua Wen,Li Wang, Gain characteristics of two-pump fiber optical parametric amplifier based on a photonic crystal fiber with pump depletion, Optoelectron. Adv. Mater. -Rapid Commun. 2012, 6(9):800-803

Introducing Standard Single-mode Fiber for Phase Matching, Chinese Physics Letters, 2013, 30(7):074-206

（22）Cao Nan, Zhu Hongna^*,Li Peipei, Taccheo Stefano, Zhu Yuanna, Gao xiaorong, Wang Zeyong, Flat and ultra-broadband two-pump fiber optical parametric amplifiers based on photonic crystal fibers. Optical Review, 2018, 25(3):316-322

（23）Albalawi Ali^*,Zhu Hongna, Taccheo S, Chiasera A, Ferrari M.,AI-Zubi Jafar, AI-Zubi Omar, Numerical modeling of the impact of pump wavelength on Yb-doped fiber amplifier performance, Optical and Quantum Electronics. 2016,48(11):500

（24）Hongna Zhu^*, Peipei Li, Chunrong Qiu, Xiaorong Gao, Zeyong Wang, Gain optimization of the fiber optical parametric amplifiers, International Conference on Information Optics and Photonics ,CIOP 2017, Ha’erbin, China, 2017

（25）M. Qiushi,G. Xiaorong, Hongna Zhu^*, The detection of wheel-flats based on fiber optic Bragg grating array, International Symposium on Precision Engineering

Measurement & Instrumentation-2015, Changsha, China, 2015

（26）Cao Nan, Zhu Hongna^*, Li Peipei, Taccheo Stefano, Zhu Yuanna, Gao xiaorong,Wang Zeyong, Mid-infrared parametric amplification in chalcogenide microstructured fibers, 10th International Conference on Information Optics and Photonics, Beijing, China,2018.07.08-07.11

（27）Hao Sui, Xiaorong Gao, Hongna Zhu*, Lin Luo, Jinli Zhang, Zhenyu Zhu, Jianping Peng, Numerical simulaton of rail surface defect detecton with laser-induced ultrasound, 11th International Conference on Information Optics and Photonics, Xi’an, China, 2019.08.07-08.10

（28） Zhenyu Zhu, Hao Sui, Lei Yu, Hongna Zhu*, Jinli Zhang, Jianping Peng, Effective Defect Features Extraction for Laser Ultrasonic Signal Processing by Using Time–Frequency Analysis, IEEE Access, 2019,7.

（29）Hongna Zhu , Zhenyu Zhu, Lei Yu, Le Cheng, Yufeng Zhang, Hao Sui, Stefano Taccheo , Jianping Peng, One-pumpphasesensitive fiber optical parametric amplifier with dual-core fiber, IEEE Journal of Selected Topics in Quantum Electronics,2020,26(4):3200105.

（30） Hongna Zhu, Lei Yu, Yufeng Zhang, Le Cheng, Zhenyu Zhu, Jiayin Song, Jinli Zhang, Bin Luo, Kai Yang,Optimized support vector machine assisted BOTDA for temperature extraction with accuracy enhancement, IEEE Photonics Journal, 2020,12(1).

（31）Sui Hao; Zhu Hongna; Cheng Le; Luo Bin; Taccheo Stefano; Zou Xihua; Yan Lianshan;  Deep learning-based pulse prediction of nonlinear dynamics in fiber optics, Optics Express, 2021, 29, 44080-44092.

[32] Sui Hao; Zhu Hongna; Luo Bin; Taccheo Stefano; Zou Xihua; Yan Lianshan; Physics-based deep learning for modeling nonlinear pulse propagation in optical fibers, Optics Letters, 2022, 47(15): 3912-3915

[33] 隋皓; 朱宏娜; 贾焕玉; 罗斌; 邹喜华; 深度学习策略下光纤中超短脉冲非线性传输过程表征及控制研究进展, 中国激光, 2023, 50(11)--特邀文章

[34] 隋皓; 朱宏娜; 张妍; 罗斌; 邹喜华; 基于深度学习的光纤超短脉冲啁啾放大研究, 光学学报, 2023, 43(3): 0319001

现主要研究方向：  (1) 智能信息处理。  (2)非线性光纤光学。  (3)光纤通信与传感。