主持国家重点研发计划青年科学家项目

主持国家自然科学基金青年基金

入选2023年度中国科协青年人才托举工程                                                      

主持薄膜铌酸锂光电子器件加工与集成技术(北京工业大学高层次人才引进)                         

参与工信部高质量专项

参与国家重点研发计划共性关键技术类项目

参与薄膜铌酸锂调制器加工与封装项目 (Hong Kong Tech 300)   

1.  S. Zhu#, Y. W. Zhang#, J. X. Feng, Y. J. Wang, K. P. Zhai, H. K. Feng, E. Y. Bun Pun *, N. H. Zhu*, and C. Wang* “Integrated lithium niobate photonic millimeter-wave radar", Nature Photonics, 19(2): 204 -11, 2025.

2.   Y. Ren, Y. J. Wang, Z. Y. Xiong, Y. P. Bai,H. S. Wen, K. P. Zhai, S. Zhu*, and N. H. Zhu*. “Reconfigurable artificial perceptionsystem and logic gates based on large-scale antiambipolar 2D heterostructurearray”, AdvancedFunctional Materials, 2417358, 2024.

3.  H. K. Feng, T. Ge, X. Q. Guo, B.S. Wang, Y. W. Zhang, Z. X. Chen, S. Zhu, K. Zhang, W. Z. Sun, C. R. Huang, Y. X. Yuan, and C. Wang*. “Integratedlithium niobate microwave photonic processing engine”, Nature, 627 (8002), 80-87, 2024.

4.   Y. W. Zhang, J. W Yang*, Z. X. Chen, H. K. Feng, S. Zhu, K. M. Shum, C. H. Chan, and C.Wang. “Monolithic lithium niobate photonic chip for efficient terahertz-opticmodulation and terahertz generation”, Nature Communications (During the revision), 2024.

5.  X. Y. Zhang, K. P. Zhai*,S. Zhu*, H. S. Wen, Y. Liu, and N. H. Zhu. “Photonic generation of arbitrarymicrowave waveforms with anti-dispersion transmission capability”, Micromachines, 15 (10),1214, 2024.

6.  S. Zhu*, Y. W. Zhang, J. X. Feng, Y. J. Wang, K. P. Zhai, H. K. Feng, E. Y. BunPun, N. H. Zhu, and C. Wang. “Integrated photonic millimeter-wave radar basedon thin-film lithium niobate”, CLEO: Applicationsand Technology. Optica Publishing Group,AM3J. 1, 2024.

7.  K. P. Zhai, X. Y. Zhang, W. T.Wang, B. Chen, Y. Jin, X. H. Du, Y. Liu, J. B. Cui, Q. K. Li, H. Zhou, H. S.Wen*, G. M. Zhao*, S. Zhu*, and N. H. Zhu. “Photonic-assisted microwave harmonic down-conversionbased on four-wave mixing in a silicon integrated waveguide doped withreverse-biased p-i-n junction”, Journal ofLightwave Technology, 41 (23), 7268-7275, 2023.

8.  S. Zhu#, Y.W. Zhang#, Y.Ren#, Y.J. Wang#, K.P. Zhai, H. K. Feng, Y. Jin, Z. Z. Lin, J. X. Feng, S. Y. Li, Q. Yang, N. H.Zhu, E. Y. Bun Pun*, and C. Wang*. “Waveguide-integrated two-dimensionalmaterial photodetectors in thin-film lithium niobate”, Advanced Photonics Research, 4 (7), 2300045, 2023.

9.  K. P. Zhai#, X. H.Cao#, S. Zhu*, H. S. Wen*, Y. F. Chen, Y. Jin, X. Y.Zhang, W. Chen, J. B. Cui, and N. H. Zhu. “An all-optical microwave frequencydivider with tunable division factors based on DP-DPMZM”, Photonics, 10 (2),138, 2023.

10.  S. Zhu*, M. X. Cui, J. X. Feng, K. P. Zhai, N. Zhou, Y. W. Zhang, E. Y. Bun Pun,N. H. Zhu, and C. Wang. “Photonic-assisted multi-format microwave signalgeneration based on thin-film lithium niobite”, SPIE/COS Photonics Asia, 12761, 24-28, 2023.

11.  S. Zhu*, Y. W. Zhang, Y. Ren, Y. J. Wang, K. P. Zhai, H. P. Feng, N. H. Zhu, E.Y. Bun Pun, and C. Wang. “Waveguide-integrated thin-film lithiumniobate-two-dimensional material photodetectors”, CLEO: Science andInnovations.Optica Publishing Group, SF3J. 5. 2023.

12.  S. Zhu, X. J. Fan, X. H. Cao, Y. X.Wang, N. H. Zhu, M. Li, and W. Li*. “Photonicgeneration and antidispersion transmission of background-free multibandarbitrarily phase-coded microwave signals”, IEEE Transactions on Microwave Theory and Techniques, 70 (4), 2290-2298, 2022.

13.  S. Zhu, Z. J. Chen*, Y. X.Wang, Y. Jin, K. P. Zhai, Y. P. Bai, J. Tan, P. Y. Wan, X. Liu, W. Li, and N.H. Zhu*. “Single-modulator based multi-format switchable signalgenerator without background noise”, Journal of Lightwave Technology, 40 (20), 6693-6700, 2022.

14.  S. Zhu, K. P. Zhai, W. Li, and N. H.Zhu*. “Stimulated-Brillouin-scattering-based arbitrarily phase coded microwavewaveform transmitter with anti-dispersion transmission”, Chinese Optics Letters, 20 (8), 083901, 2022.

15.  K. P. Zhai, S. Zhu*, andN. H. Zhu*. “Stimulated Brillouin scattering based image-reject microwavesignal harmonic down-converter”, IEEE PhotonicsJournal, 14 (6), 1-6, 2022.

16.  K. P. Zhai, S. Zhu*, Y. F. Chen, H. S. Wen, Y. Jin, W. Chen, and N. H. Zhu*. “Data fragmentation multipath secure coherent optical communicationsystem based on electrical signal processing”, IEEE Photonics Journal, 14 (4), 1-6, 2022.

17.  S. Zhu, J. X. Feng, K. P. Zhai, and N. H. Zhu*. “Optical domaincontrolled microwave signal processing technology”, SPIE/COS PhotonicsAsia, 12311, 1231102, 2022.

18.  S. Zhu, J. X. Feng, K. P. Zhai, Y. W. Zhang, N. H. Zhu, and E. Y. Bun Pun*.“Multi-format switchable microwave signal generation based on optical domainmodulation”, IEEE TENCON, 1-3,2022.

19.  S. Zhu, M. Li, N. H. Zhu, and W. Li*. “Optical domaincontrol-based frequency chirped microwave waveform generation and anti-dispersion transmissionover optical fiber”, SPIE/COS Photonics Asia, 11891, 1189102, 2021. (Invitedpaper)

20.  S. Zhu, X. J. Fan, B. Xu, W. Sun, M. Li, N. H.Zhu, and W. Li*. “Polarization manipulatedfourier domain mode-locked optoelectronic oscillator”, Journal of Lightwave Technology, 38 (19),5270-5277, 2020.

21.  S. Zhu, X. J. Fan, M. Li, N. H. Zhu, and W. Li*.“Microwave photonicfrequency down-conversion and channel switching for satellite communication”, OpticsLetters,45 (18), 5000-5003, 2020.

22.  S. Zhu, X. J. Fan, M. Li, N. H. Zhu, and W. Li*.“Dual-chirpmicrowave waveform transmitter with elimination of power fading forone-to-multibase stations fiber transmission”, Optics Letters, 45 (5),1285-1288, 2020.

23.  S. Zhu, X. J. Fan, M. Li, N. H. Zhu, and W. Li*. “Opticallycontrolled multi-carrier phase-shift-keying microwave signal generation byusing cross-polarization modulation in highly nonlinear fiber”, Optics Communications, 469,125805, 2020.

24.  S. Zhu, X. J. Fan, M. Li, N. H. Zhu, and W. Li*.“FCC-compliantmillimeter-wave ultra-wideband pulse generator based on optoelectronic oscillation”, OpticsLetters,44 (14), 3530-3533, 2019.

25.  S. Zhu, M. X. Gao, M. Li, N. H. Zhu, and W. Li*.“Photonic-basedmicrowave hybrid combiner with arbitrarily tunable phase shift and powercombining ratio”, OpticsLetters, 44(8), 2012-2015, 2019.

26.  S. Zhu, M. Li, N. H. Zhu, and W. Li*. “Chromatic-dispersion-inducedpower-fading suppression technique for bandwidth-quadrupling dual-chirpmicrowave signals over fiber transmission”, Optics Letters, 44 (4),923-926, 2019.

27.  S. Zhu, M. Li, X. Wang, N. H. Zhu, Z. Z. Cao, and W. Li*. “Photonicgeneration of background-free binary phase-coded microwave pulses”, Optics Letters, 44 (1),94-97, 2019.

28.  S. Zhu,M. X. Gao, M. Li, N. H. Zhu, and W. Li*. “A background-free phase-coded microwavepulse generator by optoelectronic oscillation”, Optics Communications, 453,124318, 2019.

29.  S. Zhu, M. Li, X. Wang, N. H. Zhu, and W. Li*.“1 × N hybrid radiofrequency photonic splitter based on a dual-polarization dual-parallel machzehnder modulator”,OpticsCommunications, 431, 10-13, 2019.

30.  S. Zhu, M. Li, N. H. Zhu, and W. Li*. “Photonic radio frequencyself-interference cancellation and harmonic down-conversion with elimination ofpower fading for in-band full-duplex radio-over-fiber system”, IEEEPhotonics Journal, 11 (5), 1-10, 2019.

31.  M. Gao#, S. Zhu#,X. J. Fan, M. Li, N. H. Zhu, and W. Li*. “Photonic triangular waveforms generationbased on nonlinear polarization rotation using a highly nonlinear fiber”, OpticalEngineering, 58 (11), 110501, 2019.

32.  S. Zhu, X. J. Fan, M. Li, N. H. Zhu, and W. Li*.“Photonic generationand transmission of phase-modulated microwave signals”, SPIE/COS Photonics Asia, 11182, 111820B, 2019. (Invited paper)

33.  S. Zhu, M. Li, N. H. Zhu, and W. Li*. “Transmission ofdual-chirp microwave waveform over fiber with compensation ofdispersion-induced power fading”, Optics Letters, 43 (11), 2466-2469, 2018.

34.  S. Zhu, Z. Shi, M. Li, N. H. Zhu, and W. Li*.“Simultaneous frequencyupconversion and phase coding of a radio-frequency signal for photonic radars”, OpticsLetters,43 (3), 583-586, 2018.

35.  S. Zhu,M. Li, X. Wang, N. H. Zhu, and W. Li*. “Photonic generationof ultra-wideband signal by truncating a continuous wave into a pulse”, IEEEPhotonics Technology Letters, 30 (21), 1862-1865, 2018.

36.  S. Zhu,X. Wang, M. Li, N. H. Zhu, and W. Li *.“A simple photonicmethod to generate square and triangular microwave waveforms”, OpticsCommunications, 426, 654-657, 2018.

Cooperation:

37.  K. P. Zhai, X. Y. Zhang, Y.Liu, R. H. Zhang, S. Zhu, P. F. Xu*, H. S. Wen*, H. Zhou*, G. M.Zhao, and N. H. Zhu*. “Frequency-modulated continuous-wave lasersource based on four-wave mixing process in a silicon integrated waveguidedoped with reverse-biased p-i-n junction”, Journal of LightwaveTechnology, 42 (21), 7551-7558, 2024.

38.  K. P Zhai, X. Y. Zhang, S. Zhu, Y. Liu, H. S. Wen, and N. H.Zhu*. “Secure optical communication system based on polarizationregulation of the data fragmentation multipath transmission technology”, Optics Letters, 49 (11), 3226-3229, 2024.

39.  X. Y. Zhang, S. Zhu, H. S. Wen, K. P. Zhai*,Y. Liu*, and N. H. Zhu. “Photonic generation of microwave waveformswith tunability and anti-dispersion capability”, Conference on Lasersand Electro-Optics Pacific Rim. IEEE, 1-2, 2024.

40.  Y. P. Bai, S. Zhu, X. Y. Song, Z. H. Su, Z. N.Zheng*, X. L. Gao*, and S. G. Huang. “Multichannel microwavephotonic phase shifter with improved power efficiency and suppressedthird-order intermodulation distortions”, Journal Of LightwaveTechnology, 41 (23), 7139-7147, 2023.

41.  K. P. Zhai, W. T. Wang*,S. Zhu, H. S. Wen, and N. H. Zhu. “Optical frequency comb generation based onoptoelectronic oscillator and Fabry-Perot phase modulator”, IEEE Photonics Journal, 15 (6),1-5, 2023.

42.  H. K. Feng*, T. Ge, S. Zhu, K. Zhang, Y. W. Zhang, Z. X.Chen, and C. Wang. “Integrated lithium niobate microwave photonics forhigh-speed analog signal processing”, CLEO: Applications andTechnology.Optica Publishing Group, AM3M. 2. 2023.

43.  X. J. Fan, Y. F. Chen, X. H.Cao, S. Zhu, M.Li, N. H. Zhu, and W. Li*. “Photonic-assisted frequencydownconverter with self-interference cancellation and fiber dispersionelimination based on stimulated Brillouin scattering”, Optics Express, 30 (17), 30149-30163, 2022.

44.  Z. J. Chen, H. Y. Li, M. Q.Jiang, S. Zhu, and P.Y. Wan*. “A dynamic-range self-compensation technique in a noise shaping SAR ADCutilizing mismatch error shaping”, Electronics Letters, 58 (10), 388-389, 2022.

45.  X. J. Fan, S.Zhu, J. F. Du, M. Li, N. H. Zhu, and W.Li*. “Photonic generation of quadruple bandwidth dual-banddual-chirp microwave waveforms with immunityto power fading”, Optics Letters,46(4), 868-871, 2021.

46.  X. J. Fan, S.Zhu, Y. Xiao, M. Li, N. H. Zhu, and W.Li*. “Generation and anti-dispersion transmission ofquadrupling-bandwidth dual-chirp microwave waveform basedon a polarization-division multiplexing Mach-Zehndermodulator”, Optical Engineering, 60 (2),026105, 2021.

47.  B. R. Xu, J. Z. Sun,S. J. Xia, S.Zhu,Y. Liu, N. H. Zhu*, and H. W. Sun*. “Coplanarelectrode directly modulated lasers with different cavity length”,Microwaveand Optical Technology Letters, 63 (5), 1434-1439,2021.

48.  D. D. Wang, Y. Liu, B. R. Xu, W. H. Sun, Z. Y. Jia, S.Zhu, and N. H. Zhu. “Traveling wave electrode simulation for integratedlithium niobite electro-optic modulators”, Seventh Symposium on NovelPhotoelectronic Detection Technology and Applications, 2021.

49.  L. Wang, G. Y. Li, T. F. Hao, S. Zhu, M. Li, N. H. Zhu, and W. Li*.“Photonic generation of multiband and multi-format microwave signals based on asingle modulator”, Optics Letters, 45 (2), 6190-6193, 2020.

50.  D. F. Shi, J. Wen, S. Zhu, Z. Y. Jia, Z. Shi, M. Li, N. H.Zhu, and W. Li*. “Instantaneous microwave frequency measurement based on non-slicedbroadband optical source”, Optics Communications, 458, 124758, 2020.

51. G. Y. Li,L. Wang, S. Zhu, M. Li, N. H. Zhu, andW. Li*. “Photonicgeneration of dual-chirp microwave waveforms based on a tunable optoelectronicoscillator”, IEEEPhotonics Technology Letters, 32 (10), 599-602, 2020.

52.  J. Z. Sun, B. R. Xu, W. H. Sun *, S. Zhu, and N. H. Zhu*. “The effect of biasand frequency on amplitude to phase conversion of photodiodes”,IEEE Photonics Journal, 12 (4), 2020.

53.  W. H. Sun, S. Zhu, W Li, W. Chen*, and N. H. Zhu*. “Noise suppressionof distributed acoustic sensing based on f-x deconvolution and wavelettransform”, IEEE Photonics Journal, 12 (1), 2020.

54.  Z. Shi,S. Zhu, M. Li, N. H. Zhu, and W. Li*. “Reconfigurable microwavephotonic mixer based on dual-polarization dual-parallel Mach-Zehnder modulator”, OpticsCommunications, 428, 131-135, 2018.

55.  W. M. Zhang*, S. Zhu, Y. P. Bai, N. Xi, S. Y. Wang, Y. Bian, X. W. Li, and Y. C. Zhang*.“Glow dischargeelectrolysis plasma initiated preparation of temperature/ph dual sensitivityreed hemicellulose-based hydrogels”, Carbohydrate polymers, 122,11-17, 2015.

56.  W. M. Zhang*, S. Zhu, Y. Huang, Y. P. Bai, N Xi, and Y. C. Zhang*. “Glow discharge electrolysis plasma inducedsynthesis of cellulose-based ionic hydrogels and their multiple responsebehaviors”, RSCAdvances, 5 (9), 6505-6511, 2015.