研究成果 - 司金海 - 教师个人主页

奖项名称	获奖年份	奖项类型	奖项等级	申报部门
光控光系统中多光子相干调控研究（陕西省自然科学一等奖）	2016	省部级科技成果奖	一等奖	陕西省
原子介质空间四波混频相干控制研究（高等学校科学研究优秀成果奖（教育部科学技术奖）—自然科学二等奖）	2011	省部级科技成果奖	二等奖	教育部
非线性光学新效应与光开关器件物理（高等学校科学技术奖，自然科学奖，二等奖）	2007	省部级科技成果奖	二等奖	教育部
有机聚合物光学非线性研究的若干重要进展（北京市科学技术奖，自然科学类，二等奖）	2002	省部级科技成果奖	二等奖	北京市

专利名称	申请号	专利类型	申请日期
一种短直腔单偏振单纵模光纤激光器及其制备方法	2019110540865(2021)	发明	2019.10.31
一种基于飞秒激光直写与电化学还原相结合制备水凝胶中三维导电金属微纳结构的方法	201810898483X(2020)	发明	2018.08.08
一种量子点溶液的制备方法	201810078189.4(2020)	发明	2018.01.26
一种基于截止波长的光纤光栅折射率传感解调方法	201810041633.5(2019)	发明	2018.01.16
超连续谱照明空间门弹道光成像装置和方法	201710626454.3(2020)	发明	2017.07.27
一种双开关脉冲的飞秒光克尔门及其实现方法	201710093448.6(2019)	发明	2017.07.01
一种超长工作距离的光克尔门选通弹道光显微成像系统	201710245539.7(2020)	发明	2017.04.01
飞秒高功率超连续白光产生装置与方法	201710050574.3(2019)	发明	2017.01.23
一种基于飞秒激光直写制备相移光纤布拉格光栅的方法	201610828553.5(2019)	发明	2016.09.18
一种基于飞秒激光直写的光纤法布里-珀罗传感器的快速制备方法	201610497403.0(2018)	发明	2016.01.01
一种基于方向滤波的飞秒光克尔门选通成像装置及方法	201510271523.4(2019)	发明	2015.05.01
飞秒差分光克尔门及基于该光克尔门的成像装置和方法	201410315037.3(2016)	发明	2014.07.01
一种基于光克尔效应的超短脉冲光限幅器	201410145470.7(2016)	发明	2014.04.01
一种发动机喷雾流场近场区光学诊断系统	201310647624.8(2016)	发明	2013.11.01
飞秒外差光克尔门及基于该光克尔门的成像装置和方法	201310474560.0(2016)	发明	2013.10.01
一种基于飞秒激光处理和湿法刻蚀的硅微结构加工方法	201310141035.2(2016)	发明	2013.06.01
一种碳化硅微结构的制备方法	201310214526.5(2016)	发明	2013.06.01
一种复合型光限幅器	201310492343.X(2015)	发明	2013.02.01

2024年

1. C. Wang, Jinhai Si*, L. Yan, T. Li, and X. Hou. "Energy Transfer Enhanced Photoluminescence of 2D/3D CsPbBr3 Hybrid Assemblies" The Journal of Chemical Physics 160(3), 034704 (2024).

2. C. Wang, L. Yan, Jinhai Si, and X. Hou, “Exceptional Stability against Water, UV light, and Heat for CsPbBr3@Pb-MOF Composites,” Small Methods (accepted).

3. P. Ma, Jinhai Si*, L. Yan, J. Wu, J. Xu, and X. Hou, “Influence of hot carriers cooling and band filling effect on the linewidth of perovskite micro-lasers,” Advanced Optical Materials, 2400189 (2024).

2023年

1. Y. Zhang, L. Yan*, Y. Li, Jinhai Si, W. Tan, and X. Hou, "Nonlinear optical limiting effect and charge transfer dynamics in a Fe-porphyrin metal-organic framework," Opt. Mater. Express, 13, 484-494 (2023).

2. T. Huo, L. Yan*, Jinhai Si, P. Ma, and X. Hou, “Ultrafast photoinduced carrier dynamics in single crystalline perovskite film,” Journal of Materials Chemistry C, 11. 3736-3742 (2023).

3. C. Wang, L. Yan*, Jinhai Si, T. Huo, and X. Hou, “Strongly luminescent and highly stable CsPbBr3/Cs4PbBr6 core/shell nanocrystals and their ultrafast carrier dynamics,” Journal of Alloys and Compounds 946, 169272 (2023).

4. Y. Li, T. Chen*, Jinhai Si, R. Lv, X. Niu, B. Gao, and X. Hou, "Ultra-high-temperature sensing using fiber grating sensor and demodulation method based on support vector regression optimized by a genetic algorithm," Optics Express 31, 3401-3414 (2023).

5. T. Shen, Jinhai Si*, D. Tian, T. Chen, P. Li, and X. Hou. "The Spatiotemporal Dynamics of Electron Plasma in Femtosecond Laser Double Pulses Induced Damage in Fused Silica" Photonics 10(6), 702 (2023).

6. X. Niu, T. Chen*, W. Zhu, T. Shen, and Jinhai Si, "Temporal-spatial dynamics of electronic plasma in a femtosecond laser-induced sapphire microstructure," Applied Optics. 62, 3416-3421 (2023).

7. X. Zhang, L. Yan*, Y. Xu, Jinhai Si, and X. Hou, Ultrafast carrier dynamic anisotropy of single crystal rhenium disulfide flake based on transient absorption spectroscopy, Optical Engineering 62 (4) 47102 (2023).

8. P. Ma, L. Yan*, Jinhai Si, T. Huo, Z. Huang, W. Tan, J. Xu, and X. Hou, Temporal-spatial-resolved lasing dynamics in customized solution grown perovskite single-crystal microcavities, Laser & Photonics Reviews, 2300533 (2023).

9. B. Liu, L. Yan*, Jinhai Si, Y. Shen and X. Hou, "Ultrafast photoinduced carrier transfer dynamics in monolayer MoS2/graphene heterostructure," Journal of Applied Physics 134, 213101 (2023).

10. Y. Li, T. Chen*, Jinhai Si, Y. He, B. Gao, and X. Hou, "Application of a fiber Bragg grating temperature sensing method based on support vector regression optimized by a genetic algorithm for the decreasing external ambient temperature case," Applied Optics 62, 7050-7057 (2023).

11. R. Lv, T. Chen*, J. Huang, Z. Sun, Y. Hou, Jinhai Si, Y. Yu, and X. Hou, "Fabrication of integrated single frequency DBR fiber laser directly on YDF by femtosecond laser," IEEE Photonics Technology Letters 35, 1319-1322 (2023).

12. P. Zhao, T. Chen*, Jinhai Si, H. Shi, and X. Hou, "Fabrication of a flexible stretchable hydrogel-based antenna using a femtosecond laser for miniaturization," Optics Express 31, 32704-32716 (2023).

13. Z. Huang, W. Tan*, P. Ma, L. Yan, Jinhai Si, and X. Hou, "Visualization of hot carrier dynamics in a single cspbbr 3 perovskite microplate using femtosecond kerr-gated wide-field fluorescence spectroscopy," Nanomaterials 13, 2701 (2023).

2022年

1. L. Yan*, Y. Ma, Jinhai Si, and X. Hou, "Optical limiting property and mechanism of 2D MXene Nb2CTX nanosheets," Opt. Eng. 61(2), 026108 (2022).

2. L. Yan*, Z. Liang, Jinhai Si*, P. Gong, Y. Wang, X. Liu, J. Tong, J. Li, and X. Hou, "Ultrafast Kinetics of Chlorinated Polymer Donors: A Faster Excitonic Dissociation Path," ACS Appl. Mater. Interfaces, 14(5), 6945-6957 (2022).

3. Y. Li, L. Yan*, Jinhai Si, Z. Liang, W. Huang, H. Ma, and X. Hou, "Nonlinear optical limiting property and carrier dynamics in tin phthalocyanine porous organic frameworks," J. Chem. Phys. 156, 054702 (2022).

4. W. Tan *, J. Ma, Jinhai Si, Z. Huang, and X. Hou, “Femtosecond optical Kerr gate with double gate pulses: Simulation and experiment,” Optics and Laser Technology, 145, 107531 (2022).

5. Z. Huang, W. Tan *, Jinhai Si, S. Zeng, Z. Kang and X. Hou, "High-Transmittance Femtosecond Optical Kerr Gate with Double Gate Pulses Based on Birefringence Effect," Photonics, 9(2), 71 (2022).

6. T. Shen, T. Chen, Jinhai Si, B. Gao, W. Hu, H. Wang, and X. Hou, "Structural changes during femtosecond laser percussion drilling of high-aspect-ratio diamond microholes," Optical Engineering, 61(1), 016103 (2022).

7. S. Zeng, Z. Li, W. Tan*, Jinhai Si, Z. Huang, and X. Hou, "Ultrafast Electron Transfer Dynamics Affected by Ligand Chain Length in InP/ZnS Core/Shell Quantum Dots," Journal of Physics Chemistry C, 126(21) 9091–9098 (2022).

8. T. Shen, Jinhai Si*, T. Chen, Y. Zhuang, and X. Hou, "Fabrication of microgrooves in PMN-PT using femtosecond laser irradiation and acid etching," Applied Optics, 61(21), 6234-6240 (2022).

9. R. Lv, T. Chen, X. Pham,Jinhai Si, J. Huang, Y. Hou, B. Gao, and X. Hou, "High-temperature linearly polarized single-frequency fiber lasers based on a non-polarization-maintaining FBG preparation through a femtosecond laser," Optics Letters, 47(16), 4111-4114 (2022).

10. Y. Li, Jinhai Si*, L. Yan, Z. Fan, Z. Liang, and X. Hou, "Nonlinear optical limiting property of the carboxyl-functionalized Ti3C2 MXene nanosheets," J. Chem. Phys. 157, 164704 (2022).

11. S. J. Zeng, W. J. Tan, Jinhai Si, L. H. Mao, J. W. Shi, Y. R. Li, and X. Hou, "Ultrafast Electron Transfer in InP/ZnSe/ZnS Quantum Dots for Photocatalytic Hydrogen Evolution," Journal of Physical Chemistry Letters, 13(39) 9096-9102 (2022).

12. S. J. Zeng, Z. B. Li, W. J. Tan, Jinhai. Si, Y. R. Li, and X. Hou, "Ultrafast Charge Carrier Dynamics in InP/ZnSe/ZnS Core/Shell/Shell Quantum Dots," Nanomaterials, 12(21) 3817 (2022).

13. P. P. Zhao, J. Hu, T. Chen, Jinhai Si, J. P. Wu, Y. Zhang, K. D. Li, and X. Hou, "Formation of silver wires embedded in hydrogels using femtosecond laser ablation and electroplating for strain sensing," Journal of Micromechanics and Microengineering 32(12) 125005 (2022).

2021年

1. J. Li, W. Tan*, Jinhai Si, S. Tang, Z. Kang, and X. Hou, “Control of femtosecond single-filament formation via feedback-based wavefront shaping,” Optics Communications 490, 126929 (2021).

2. J. Li, W. Tan*, Jinhai Si, S. Tang, Z. Kang, and X. Hou, "Control of the spatial characteristics of femtosecond laser filamentation in glass via feedback-based wavefront shaping with an annular phase mask," Optics Express 29, 5972-5981 (2021).

3. X. Li, L. Yan*, Jinhai Si, A. Pan, Y. Xu, and X. Hou, "Tunable nonlinear absorption effect and carrier dynamics of perovskite quantum dots," Opt. Mater. Express 11, 569-574 (2021).

4. L. Yan, Y. Xu, Jinhai Si*, Y. Li, and X. Hou, "Enhanced optical nonlinearity of Mxene Ti3C2Tx nanosheets decorated with silver nanoparticles," Opt. Mater. Express 11, 1401-1409 (2021).

5. Z. Huang, W. Tan∗, Jinhai Si, S. Zeng, and X. Hou, "Supercontinuum-illumination for long-working-distance microscopic imaging of air–liquid mixed sprays in the near-nozzle region," Laser Physics, 31(7), 075301 (2021).

6. S. Tang, W. Tan*, Jinhai Si, J. Li, Y. Yang, and X. Hou, "Feedback-based wavefront shaping based on light intensity distribution for focusing light through scattering media," J. Appl. Phys 130, 033103 (2021).

7. Z. Liang, L. Yan*, Jinhai Si, P. Gong, X. Li, D. Liu, J. Li, and X, Hou, “Rational Design and Characterization of Symmetry-Breaking Organic Semiconductors in Polymer Solar Cells: A Theory Insight of the Asymmetric Advantage,”. Materials, 14, 672321 (2021)。

8. J. Li, W. Tan*, Jinhai Si, Z. Kang, and X. Hou, “Generation of Ultrabroad and Intense Supercontinuum in Mixed Multiple Thin Plates,” Photonics, 8, 3118, (2021).

9. J. Li, W. Tan*, Jinhai Si, S. Tang, Y. Yang, and X. Hou, “Depolarization of the supercontinuum induced by linearly and circularly polarized femtosecond laser pulses in water,” Physical Review A 104, 053535 (2021).

10. F. Huang, Jinhai Si*, T. Chen, T. Shen, M. Shi, and X. Hou, "Temporal-spatial dynamics of electronic plasma in femtosecond laser induced damage," Opt. Express 29, 14658-14667 (2021)

2020年

1. H. Xu, L. Yan*, Jinhai Si, X. Li, Y. Xu, and X. Hou, “Influence of the photoluminescence property of carbon nanodots on the reduction of silver ions,” Journal of Luminecence 217, 116804 (2020).[PDF]

2. X. Li, L Yan*, Jinhai Si, Y. Xu, and X. Hou, “Control of the size and luminescence of carbon nanodots by adjusting ambient pressure in laser ablation process,” Journal of Applied Physics 127 (9), 083102 (2020).[PDF]

3. M. Li, L. Yan*, Jinhai Si, X. Li, J. Li, and X. Hou, "Enhancement mechanism of the saturable absorption effect in reduced graphene oxide decorated with silver nanoparticles," Opt. Mater. Express 10, 884-890 (2020).[PDF]

4. Y. Xu, L. Yan*, Jinhai Si, M. Li, Y. Ma, J. Li, and X. Hou, "Nonlinear absorption property and carrier dynamics in MoS2/Graphene van der Waals heterostructures," Carbon 165, 421-427 (2020).[PDF]

5. M. Wang, W. Tan, Jinhai Si, Y. Zheng, and Z. Huang, "Diagnosis of liquid-gas mixed sprays in the near-field region using femtosecond laser induced supercontinuum imaging method," Opt. Express 28, 3298-3304 (2020).

6. X. Pham, Jinhai Si*, T. Chen, Z. Niu and X. Hou. “Ultra-high-temperature resistant DBR fiber laser based on type II-IR fiber Bragg gratings,” Appl. Opt., 59, 3081(2020).

7. F. Huang, Jinhai Si*, T. Chen, L. Hou and X. Hou, “Wide-Range Wavelength-Tunable Mode-Locked Fiber Laser Based on Fiber Bragg Grating,” IEEE Photon. Technol. Lett., 32, 1025-1028(2020).

8. T. Chen, P. Zhao, K. Li, Jinhai Si*, J. Hu, B. Gao, Y. Gao and X. Hou. “Fabrication of three-dimensional metal structures embedded in hydrogel by using femtosecond laser ablation and electroplating,” Opt. Lett. 45, 6286-6289 (2020)

2019年

1. Y. Xu, L. Yan*, M. Yue and Y. Yu, “Green Hydrothermal Synthesis of Fluorescent Carbon Dots from Glucose and Taurine for Fe3+ and pH Sensing,” Nano 14, 1950014 (2019). [PDF]

2. Z. Zhao, W. Tan*, Y. Zheng, M. Wang and X. Liu, “Long-working-distance microscopic imaging through a scattering medium using supercontinuum illumination,” Phys. Scr. 94, 045505 (2019).[PDF]

3. Y. Xu, L. Yan*, X. Li, and H. Xu, “Fabrication of transition metal dichalcogenides quantum dots based on femtosecond laser ablation”, Sci. Rep. 9, 2931 (2019).[PDF]

4. Y. Yu, Jinhai Si*, L. Yan, M. Liand H. Xu, “ Enhanced nonlinear absorption and ultrafast carrier dynamics in graphene/gold nanoparticles nanocomposites”, Carbon 148, 72-79 (2019). [PDF]

5. H. Xu, L. Yan*, Jinhai Si, Y. Xu, and X. Hou, "Femtosecond laser-assisted synthesis of ZnO nanoparticles in solvent with visible emission for temperature sensing", Nano 14 (05), 1950054 (2019).[PDF]

6. Y. Yu, L. Yan*, Jinhai Si, Y. Xu, and X. Hou, "Femtosecond laser assisted synthesis of gold nanorod and graphene hybrids and its photothermal property in the near-infrared region", Journal of Physics and Chemistry of Solids 132C, 116-120(2019).[PDF]

7. X. Li, L. Yan*, Jinhai Si, H. Xu, and Y. Xu, "Tuning the photoluminescence property of carbon dots by ultraviolet light irradiation", RSC Advances 9, 12732–12736 (2019).[PDF]

8. C. Chen, X. Hou, and Jinhai Si*, “Design of a multi-analyte resonant photonic platform for label-free biosensing,” Nanotechnology, 30, 275501 (2018). [PDF]

9. M. Wang, Jinhai Si*, W. Tan, Y. Zheng, and Y. Yang, “Comparison of femtosecond shadowgraphy and optical Kerr gated ballistic imaging for measurements of spray structures”, Optics Express 27, 16080-16087 (2019). [PDF]

10. X. Pham, Jinhai Si*, Tao Chen, Zhen Niu, Fengqin Huang, and Xun Hou “Ultra-short DBR fiber laser with high-temperature resistance using tilted fiber Bragg grating output coupler,” Optics Express 27, 38532-38540 (2019).[PDF]

11. F. Huang, T. Chen∗, Jinhai Si , X. Pham, and X. Hou, “Fiber laser based on a fiber Bragg grating and its application in high-temperature sensing,” Optics Communication 452, 233(2019).[PDF]

12. X. Pham, Jinhai Si*, T. Chen, F. Qin , and X. Hou, “Wide Range Refractive Index Measurement Based on Off-Axis Tilted Fiber Bragg Gratings Fabricated Using Femtosecond Laser,” Journal of Lightwave Technology, 37(13), 3027-3034, (2019).[PDF]

13. Y. Yang, W. Tan, Jinhai Si*, J. Li, and S. Tang, “Influences of experimental parameters on characteristics of focusing through scattering media by wavefront shaping,” AIP advances, 9(10), 105014, (2019). [PDF]

2018年

1. V. Nguyen, L. Yan*, H. Xu, and M. Yue, “One-step synthesis of multi-emission carbon nanodots for ratiometric temperature sensing,”. Appl. Surf. Sci. 427, 1118–1123 (2018). [PDF]

2. W. Tan*, J. Ma, Y. Zheng, and J. Tong, “Femtosecond Optical Kerr Gate With Double Gate Pulses,” IEEE Photon. Tech. Lett. 30, 266-269 (2018).[PDF]

3. M. Yue, Jinhai Si*, L. Yan, Y. Yu, and X. Hou, “Enhanced nonlinear optical properties of reduced graphene oxide decorated with silver nanoparticles,” Opt. Mater. Express 8, 698-703 (2018).[PDF]

4. C. Chen, X. Hou, and Jinhai Si*, “Carbohydrate-protein interactions characterized by dual polarization hybrid plasmonic waveguide,” Nanotechnology Reviews, 7(1), 11-18 (2018).[PDF]

5. Y. Zheng, Jinhai Si,* W. Tan, M. Wang, B. Yang, and X. Hou, “Imaging of high-pressure fuel sprays in the near-nozzle region with supercontinuum illumination,” Opt. Eng. 57(4), 043114 (2018). [PDF]

6. X. Pham, Jinhai Si,* T. Chen., R. Wang, L. Yan, H. Cao, and X. Hou, “Demodulation method for tilted fiber Bragg grating refractometer with high sensitivity,” J. Appl. Phys. 123, 174501 (2018).[PDF]

7. Y. Ren, W. Tan*, Y. Zheng Y, X. Liu, and J. Tong, “Directional gated imaging in a turbid medium using an ultrafast optical Kerr gate,” Optik, 170, 506–511 (2018). [PDF]

8. Y. Yu, L. Yan*, M. Yue, and H. Xu, “Femtosecond laser-assisted synthesis of silver nanoparticles and reduced graphene oxide hybrid for optical limiting,” R. Soc. Open Sci., 5, 1714362 (2018).[PDF]

9. H. Xu, L. Yan*, Y. Yu, and Y. Xu, “Facile synthesis of carbon-supported silver nanoparticles for optical limiting,” Appl. Surf. Sci. 457, 655-661 (2018).[PDF]

10. C. Chen, X. Hou, and Jinhai Si*, “Theoretical Design of an Integrated Optical Sensor for a Standard Immunoassay,” IEEE Sens. J. 18, 5368-5375 (2018). [PDF]

11. C. Chen, X. Hou, and Jinhai Si*, “Design of an integrated optics for transglutaminase conformational change,” Nanotechnology Reviews 7, 283-290 (2018). [PDF]

2017年

1. Y. Ren, Jinhai Si*, W. Tan, Y. Zheng, J. Tong, and X. Hou, “Speckle suppression of okg imaging in highly turbid medium using sc-assisted fundamental frequency,” IEEE Photon. Tech. Lett. 29(1), 106-109 (2017). [PDF]

2. M. Yue, Jinhai Si*, L. Yan, and X. Hou, “Time- and frequency-resolved determination of ultrafast energy transfer in optical Kerr measurements,” Appl. Phys. B. 123, 53-1-6 (2017). [PDF]

3. H. Xu, L. Yan*, V. Nguyena, Y. Yu, and Y. Xu, “One-step synthesis of nitrogen-doped carbon nanodots for ratiometric pH sensing by femtosecond laser ablation method,” Appl. Surf. Sci. 414, 238–243 (2017). [PDF]

4. Y. Zheng, W. Tan*, X. Liu, and J. Tong, "Ballistic imaging through an intense scattering medium using a supercontinuum with a roundabout spatial gate," Opt. Express 25, 20431-20436 (2017).[PDF]

5. R. Wang, Jinhai Si*, T. Chen, et al, “Fabrication of high-temperature tilted fiber Bragg gratings using a femtosecond laser,” Opt. Express 25, 23684-23689 (2017).[PDF]

6. Y. Zheng, Jinhai Si*, W. Tan,Y. Ren, J. Tong, and X. Hou, “Imaging transparent objects in a turbid medium using a femtosecond optical Kerr gate”, Chin. Phys. Lett., 34(10), 104204-1-6 (2017).[PDF]

7. Y. Du, T. Chen, Y. Zhang, R. Wang, H. Gao, and K. Li, “Fabrication of Phase-shifted Fiber Bragg Grating by Femtosecond Laser Shield Method,” IEEE Photon. Tech. Lett., (2017).

8. M. Yue, L. Yan*, Y. Xu, V. Nguyen, and T. Chen, “Intense and collimated supercontinuum generation using microlens array,”. IEEE Photon. Tech. Lett. 29, 2031-2034 (2017). [PDF]

9. C. Chen, X. Hou, and Jinhai Si*, "Protein analysis by Mach-Zehnder interferometers with a hybrid plasmonic waveguide with nano-slots," Opt. Express 25, 31294-31308 (2017).[PDF]

2016年

1. V. Nguyen, L. Yan*, Jinhai Si, and X Hou, “Femtosecond laser-assisted synthesis of highly photoluminescent carbon nanodots for Fe 3+ detection with high sensitivity and selectivity,” Opt. Mater. Express 6(2), 312-320 (2016). [PDF]

2. Y. Ren, W. Tan*, Jinhai Si, S. Xu, J. Tong, and X. Hou, “Ultrafast optical Kerr gate imaging in a poly-disperse turbid medium,” J. Mod. Opt. 63, 513–518 (2016). [PDF]

3. Y. Ren, Jinhai Si*, W. Tan, S. Xu, J. Tong, and X. Hou, “Microscopic imaging through a turbid medium by use of a differential optical Kerr gate,” IEEE Photon. Tech. Lett. 28, 394-397 (2016). [PDF]

4. M. Yue, L. Yan*, Jinhai Si, and X. Hou, “Influence of Self-Diffraction Effect on Femtosecond Time-Resolved Single-Shot Optical Kerr Measurements,” Chin. Phys. Lett. 33, 044202 (2016). [PDF]

5. B. Gao, T. Chen, V. Khuat, Jinhai Si*, and X. Hou, “Fabrication of grating structures on silicon carbide by femtosecond laser irradiation and wet etching,” Chin. Opt. Lett. 14(2), 021407 (2016). [PDF]

6. T. Chen, A. Pan, C. Li, Jinhai Si*, and X. Hou, “Femtosecond-laser-induced formation of visible-light-emitting structures inside silicon,” IEEE Photon. Tech. Lett., 28(4), 387-390 (2016). [PDF]

7. A. Pan, T. Chen*, C. Li, and X. Hou, “Parallel fabrication of silicon concave microlens array by femtosecond laser irradiation and mixed acid etching,” Chin. Opt. Lett., 14(5), 052201(2016). [PDF]

8. A. Pan, Jinhai Si*, T. Chen, C. Li, and X. Hou, “Fabrication of two-dimensional periodic structures on silicon afterscanning irradiation with femtosecond laser multi-beams,” Appl. Surf. Sci. 368, 443-448(2016). [PDF]

9. Y. Ren, W. Tan, Y. Zheng, X. Liu, and J. Tong, “Long-working-distance microscopic imaging in a turbid medium by use of an ultrafast optical Kerr gate,” Rev. Sci. Instrum. 87, 063708 (2016). [PDF]

10. Y. Zheng, W. Tan*, Jinhai Si, Y. Ren, S. Xu, J. Tong, and X. Hou, “Depth-resolved ballistic imaging in a low-depth-of-field optical Kerr gated imaging,” J. Appl. Phys. 120, 093101 (2016). [PDF]

11. V. Nguyen, jinhai Si*, L. Yan, and X. Hou, “Direct demonstration of photoluminescence originated from surface functional groups in carbon nanodots,” Carbon 108, 268-273 (2016). [PDF]

12. Y. Zheng, Jinhai Si*, W. Tan, Y. Ren, J. Tong, and X. Hou, “Speckle-suppressed full-field imaging through a scattering medium using a supercontinuum,” Opt. Express 24(23), 26338-26343 (2016). [PDF]

2015年

1. V. Khuat, Jinhai Si*, T. Chen, and X. Hou, "Deep-subwavelength nanohole arrays embedded in nanoripples fabricated by femtosecond laser irradiation," Opt. Lett. 40, 209-212 (2015). [PDF]

2. V. Nguyen, L. Yan*, Jinhai Si, and Xun Hou, “Femtosecond laser-induced size reduction of carbon nanodots in solution: Effect of laser fluence, spot size, and irradiation time,” J. Appl. Phys. 117, 084304 (2015). [PDF]

3. S. Xu, W. Tan*, Jinhai Si, P. Zhan, J. Tong, and X. Hou, "Optimum heterodyning angle for heterodyned optical Kerr gated ballistic imaging," Opt. Express 23, 1800-1805 (2015). [PDF]

4. X. Sun, L. Yan*, T. Chen, Y. Yu, and S. Matsuo, “Effect of solvent surface tension on optical limiting properties of graphene dispersions,” Laser Phys. 25, 035901 (2015). [PDF]

5. V. Khuat, Jinhai Si*, T. Chen, V. Dao, and X. Hou, “Simple method for fabrication of microchannels in silicon carbide,” J. Laser Appl. 27, 022002 (2015). [PDF]

6. T. Chen, A. Pan, C. Li, Jinhai Si*, and X. Hou, “Study on morphology of high-aspect-ratio grooves fabricated by usingfemtosecond laser irradiation and wet etching,” Appl. Surf. Sci. 325, 145-150 (2015). [PDF]

7. W. Cui, Jinhai Si*, T. Chen, and X. Hou, “Compact bending sensor based on a fiber Bragg grating in an abrupt biconical taper,” Opt. Express 23, 11031-11036 (2015). [PDF]

8. S. Jia, Y. Wu, Jinhai Si*, F. Chen, X. Hou, “Subwavelength beam focusing via multiple-metal slits arranged along a triangle surface,”. Opt. Commun. 355, 586-590 (2015). [PDF]

9. V. Nguyen, Jinhai Si*, L. Yan, X. Hou, “Electron-hole Recombination Dynamics in Carbon Nanodots,” Carbon 95, 659-663 (2015). [PDF]

10. Y. Li, T. Chen, A. Pan, C. Li, and L. Tang, “Parallel fabrication of high-aspect-ratio all-silicon grooves using femtosecond laser irradiation and wet etching,” J. Micromech. Microeng. 25(11), 115001 (2015). [PDF]

11. V. Khuat, T. Chen, and V. Dao, “Fabrication of nanostructures on silicon carbide surface and microgroove sidewall using 800-nm femtosecond laser,” Opt. Eng. 54(7): 077102 (2015). [PDF]

12. B. Gao, Tao Chen, Y. Chen, Jinhai Si, and X. Hou, "Fabrication of Through Micro-hole Arrays in Silicon Using Femtosecond Laser Irradiation and Selective Chemical Etching," Chin. Phys. Lett. 32, 107901-1-4(2015). [PDF]

13. B. Gao, T. Chen, W. Cui, C. Li, Jinhai Si, X. Hou，"Processing grating structures on surfaces of wide-bandgap semiconductors using femtosecond laser and phase mask ,"Opt. Eng. 54(12), 126106 (2015). [PDF]

2014年

1. X. Wang, Jinhai Si, L. Yan*, P. He, F. Chen, and X. Hou, “Ultrafast single-shot imaging of femtosecond pulse propagation in transparent liquids using a supercontinuum and optical polarigraphy,” J. Opt. 16(1), 015203-1-5 (2014). [PDF]

2. Y. Xiong, L. Yan*, Z. Zhou, W. Yi, A. Lin, Jinhai Si, F. Chen, and X. Hou, “Efficient optical Kerr gating property of fluorotellurite glass,” Optik. 125(3), 1444–1447 (2014). [PDF]

3. V. Khuat, Y. Ma, Jinhai Si*, T. Chen, F. Chen, and X. Hou, “Fabrication of through holes in silicon carbide using femtosecond laser irradiation and acid etching,” App. Sur. Sci. 289(15), 529–532 (2014). [PDF]

4. Y. Xiong, L. Yan, Jinhai Si*, W. Yi, W. Ding, W. Tan, X. Liu, F. Chen, and X. Hou, “Cascaded optical limiter with low activating and high damage thresholds using single-layer graphene and single-walled carbon nanotubes,” J. Appl. Phys. 115(8), 083111-1-5 (2014). [PDF]

5. V. Khuat, Y. Ma, Jinhai Si*, T. Chen, F. Chen, and X. Hou, “Fabrication of Micro-Grooves in Silicon Carbide Using Femtosecond Laser Irradiation and Acid Etching,” Chin. Phys. Lett. 31(3), 037901-1-4 (2014). [PDF]

6. P. He, Jinhai Si, L. Yan*, X. Liu, X. Wang, F. Chen, and X. Hou, “Ultrafast imaging of photoinduced nonlinear response in transparent materials using femtosecond optical polarigraphy technique,” Opt. Eng. 53(5), 056101-1-4 (2014). [PDF]

7. P. Zhan, Jinhai Si, W. Tan*, X. Liu, B. Wu, S. Xu, F. Chen, and X. Hou “The influence of turbid medium properties on object visibility in optical Kerr gated imaging,” Laser. Phys. 24(1), 015401 (2014). [PDF]

8. P. Zhan, W. Tan*, Jinhai Si, S. Xu, J. Tong, and X. Hou, “Optical imaging of objects in turbid media using heterodyned optical Kerr gate,” Appl. Phys. Lett. 104(21), 211907-1-4 (2014). [PDF]

9. W. Tan, Z. Zhou, A. Lin, J. Tong, Jinhai Si*, X. Hou, “Instantaneous three-dimensional imaging using supercontinuum and ultrafast optical Kerr gate of tellurite glass,” Opt. Eng., 53(4), 043108 (2014). [PDF]

10. V. Khuat, T. Chen, B. Gao, Jinhai Si*, Y. Ma, and X. Hou, “Uniform nano-ripples on the sidewall of silicon carbide micro-hole fabricated by femtosecond laser irradiation and acid etching,” Appl. Phys. Lett., 104 , 241907 (2014). [PDF]

11. A. Pan, B. Gao, T. Chen,* Jinhai Si, C. Li, F. Chen, and X. Hou, “Fabrication of concave spherical microlenses on silicon by femtosecond laser irradiation and mixed acid etching,” Opt. Express, 22(12), 15245-15250 (2014). [PDF]

12. W. Cui, T. Chen*, Jinhai Si, F. Chen, and X. Hou, “Femtosecond laser processing of fiber Bragg gratings with photo-induced gradient-index assisted focusing,” J. Micromech. Microeng., 24, 075015 (2014). [PDF]

13. S. Xu, W. Tan*, Jinhai Si, P. Zhan, J. Tong, and X. Hou, “Comparative study of two ballistic imaging methods based on the femtosecond optical Kerr gate and spatial filtering,” Opt. Eng., 53, 093102 (2014). [PDF]

14. S. Xu, Jinhai Si, W. Tan*, P. Zhan, Y. Yu, F. Chen, and X. Hou, “Ultrafast optical Kerr gate of bismuth–plumbum oxide glass for time-gated ballistic imaging,” J. Mod. Opt., 61, 1452-1456 (2014). [PDF]

15. Y. M, Jinhai Si, X. Sun, T. Chen, and X. Hou, “Progressive evolution of silicon surface microstructures via femtosecond laser irradiation in ambient air,” Appl. Sur. Sci., 313, 905–910 (2014). [PDF]

16. Y. Xiong, Jinhai Si, L. Yan*, H. Song, W. Yi, and X. Hou, “The influence of nonlinear scattering light distributions on the optical limiting properties of carbon nanotubes,” Laser Phys. Lett., 11, 115904 (2014). [PDF]

17. W. Tan, P. Zhan, Jinhai Si*, S. Xu, J. Tong, H. Xu, and X. Hou, "Sharpness-enhanced ultrafast imaging by using a biased optical Kerr gate," Opt. Express, 22, 28100-28108 (2014). [PDF]

18. X. Wang, L.Yan*, Jinhai Si, S. Matsuo, H. Xu, and X. Hou, "High-frame-rate observation of single femtosecond laser pulse propagation in fused silica using an echelon and optical polarigraphy technique," Appl. Opt., 53, 8395-8399 (2014). [PDF]

19. L. Yan, Y. Xiong, Jinhai Si*, X. Sun, W. Yi, and X. Hou, "Optical limiting properties and mechanisms of single-layer graphene dispersions in heavy-atom solvents," Opt. Express 22, 31836-31841 (2014) [PDF]

2013年

1. W. Tan, Z. Zhou, A. Lin, Jinhai Si,* P. Zhan, B. Wu, and X. Hou, “High contrast ballistic imaging using femtosecond optical Kerr gate of tellurite glass,” Opt. Express. 21(6), 7740-7747 (2013). [PDF]

2. H. Zhang, J. Cheng, Jinhai Si,* H. Liu, L. Yan, F. Chen, and X. Hou, “A superior method for measuring chirp structure of femtosecond supercontinuum pulse,” IEEE Photo. Tech. Lett. 25(3), 261-263 (2013). [PDF]

3. H. Zhang, Z. Zhou, A. Lin, J. Cheng L.Yan, Jinhai Si*, F. Chen, and X. Hou, “Chirp structure measurement of a supercontinuum pulse based on transient lens effect in tellurite glass,” J. Appl. Phys. 113(11), 113106-1-4 (2013). [PDF]

4. W. Tan, Z. Zhou, A. Lin, Jinhai Si*, J. Tong, and X. Hou, “Femtosecond nonlinear optical property of a TeO2-ZnO–Na2O glass and its application in time-resolved three-dimensional imaging,” Opt. Commun. 291(15), 337-340 (2013). [PDF]

5. B. Wu, W. Tan, X. liu, Jinhai Si*, P. Zhan, L. Yan, F. Chen and X. Hou, “High contrast ballistic imaging using femtosecond optical Kerr gate of SrTiO₃ crystal,” Laser Phys. Lett. 10(5), 055407-1-5 (2013). [PDF]

6. P. Zhan, W. Tan*, X. Liu, B. Wu, Jinhai Si, F. Chen and X. Hou, “Efficient optical Kerr gate of Bi₂O₃-B₂O₃-SiO₂ glass for acquiring high contrast ballistic imaging in turbid medium,” J. Opt. 15(5), 055202-1-5 (2013). [PDF]

7. X. Wang, P. He, L. Yan*, Jinhai Si, F. Chen, and X. Hou, “Pump power dependence of the spatial gating properties of femtosecond optical Kerr effect measurements,” Appl. Phys. B. 112(2), 279-283 (2013). [PDF]

8. A. Pan, Jinhai Si, T. Chen*, Y. Ma, F. Chen, and X. Hou, “Fabrication of high-aspect-ratio grooves in silicon using femtosecond laser irradiation and oxygen-dependent acid etching,” Opt. Express 21(14), 16657-16662 (2013). [PDF]

9. Y. Ma, A. Pan, Jinhai Si*, T. Chen, F. Chen, and Xun Hou, “A simple method for fabrication of high-aspect-ratio all-silicon grooves,” App. Sur. Sci. 284(1), 372-378 (2013). [PDF]

10. L. Yan, X. Wang, Jinhai Si*, P. He, F. Chen, J. Zou, and X. Hou, “Multi-Frame Observation of a Single Femtosecond Laser Pulse Propagation Using an Echelon and Optical Polarigraphy Technique,” IEEE Photon. Technol. Lett. 25(19), 1879-1881 (2013). [PDF]

11. W. Cui, Jinhai Si, T. Chen*, F. Yan, F. Chen, and X. Hou, “Suppression of Thermal Effects in Femtosecond Laser Processing of Fiber Bragg Gratings,” Chin. Phys. Lett. 30(10), 104207-1-4 (2013). [PDF]

2012年

1. L. Yan, S. Jia, Jinhai Si*, F. Chen, W. Yi, and X. Hou, “Influence of self-focusing effect on femtosecond collinear nondegenerate optical Kerr measurements,” Optik 123(8), 722-725 (2012). [PDF]

2. Y. Ma, H. Shi, Jinhai Si*, T. Chen, F. Yan, F. Chen, and X. Hou, “Photoinduced microchannels and element change inside silicon by femtosecond laser pulses,” Opt. Commun. 285(2), 140-142 (2012). [PDF]

3. L. Yan, X. Wang, Jinhai Si*, S. Matsuo, T. Chen, W. Tan, F. Chen, and X. Hou, “Time-resolved single-shot imaging of femtosecond laser induced filamentsusing supercontinuum and optical polarigraphy,” Appl. Phys. Lett. 100(11), 1111107-1-3 (2012). [PDF]

4. J. Tong, W. Tan, Jinhai Si*, W. Cui, W. Yi, F. Chen, and X. Hou, “Femtosecond optical Kerr effect measurement using supercontinuum for eliminating the nonlinear coherent coupling effect,” J. Opt. 14(4), 045203-1-5 (2012). [PDF]

5. J. Tong, W. Tan, Jinhai Si*, F. Chen, W. Yi, and X. Hou, “High time-resolved imaging of targets in turbid media using ultrafast optical Kerr gate,” Chin. Phys. Lett. 29(2), 024207-1-3 (2012). [PDF]

6. S. Jia, L. Yan, Jinhai Si*, W. Yi, F. Chen, and X. Hou, “Subwavelength beam focusing by multiple-metal slits surrounded by chirped dielectric surface gratings,” Opt. Commun. 285(6), 1519-1522 (2012). [PDF]

7. Y. Ma, H. Shi, Jinhai Si*, H. Ren, T. Chen, F. Chen, and X. Hou. “High-aspect-ratio grooves fabricated in silicon by a single pass of femtosecond laser pulses,” J. Appl. Phys. 111(9), 093102-1-4 (2012). [PDF]

8. H. Zhang, Z. Zhou, A. Lin, J. Cheng, H. Liu, Jinhai Si*, F. Chen, X. Hou, “Controllable cascaded four-wave mixing by two chirped femtosecond laser pulses,” Appl. Phys. B 108(3), 487-491 (2012). [PDF]

9. H. Zhang, Z. Zhou, A. Lin, J. Cheng, H. Liu, Jinhai Si*, F. Chen, X. Hou, “Efficient optical Kerr gate of tellurite glass for acquiring ultrafast fluorescence,” J. Opt. 14(6), 065201-1-6 (2012). [PDF]

10. L. Yan, S. Jia, Jinhai Si*, S. Matsuo, F. Chen, and X. Hou, “Application of optical Kerr gate with SrTiO₃ crystal in acquisition of gated spectra from a supercontinuum,” Chin. Phys. Lett. 29(7), 074207-1-4 (2012). [PDF]

11. S. Jia, Jinhai Si*, L. Yan, F. Chen and X. Hou, “Subwavelength beam shaping via multiple-metal slits surrounded by slot waveguides,” Opt. Commun. 285(24), 5486-5491 (2012). [PDF]

12. T. Chen, Jinhai Si*, X. Liu, F. Chen and X. Hou, “The Influence of Coherent Transient Energy Transfer on Femtosecond Time-Resolved Z-Scan Measurements,” Chin. Phys. Lett. 29(10), 104211-1-4 (2012). [PDF]

13. Y. Ma, H. Ren, Jinhai Si*, X. Sun, H. Shi, T. Chen, F. Chen and X. Hou, “An alternative approach for femtosecond laser induced black silicon in ambient air,” App. Sur. Sci. 261(15), 722-726(2012). [PDF]

2011年

1. W. Tan, J. Tong, Jinhai Si*, Y. Yang, W. Yi, F. Chen, and X. Hou, “High time-resolved three-dimensional imaging using ultrafast optical Kerr gate of bismuth Glass,” IEEE Photon. Technol. Lett. 23(8), 471-473 (2011). [PDF]

2. J. Tong, Y. Yang, Jinhai Si*, W. Tan, F. Chen, W. Yi, and X. Hou, “Measurements of the scattering coefficients of intralipid solutions by a femtosecond optical Kerr gate,” Opt. Eng. 50(4), 043607-1-4 (2011). [PDF]

3. L. Yan, Jinhai Si*, Y. Yan, F. Chen, and X. Hou, “Pump power dependence of femtosecond two-color optical Kerr shutter measurements,” Opt. Express 19(12), 11196-11201 (2011). [PDF]

4. H. Zhang, H. Liu, Jinhai Si*, W. Yi, F. Chen, and X. Hou, “Low threshold power density for the generation of frequency up-converted pulses in bismuth glass by two crossing chirped femtosecond pulses,” Opt. Express 19(13), 12039-12044 (2011). [PDF]

5. J. Tong, W. Tan, Jinhai Si*, Y. Yang, W. Yi, F. Chen, and X. Hou, “Elimination of the coherent effect in the optical Kerr measurement of bismuth glass using supercontinuum,” J. Appl. Phys. 109(12), 123104-1-4 (2011). [PDF]

6. H. Liu, H. Zhang, Jinhai Si*, L. Yan, F. Chen, and X. Hou, “Elimination of Coherent Artifact in Pump-Probe Experiment by Directly Detecting Background-Free Diffraction Signal,” Chin. Phys. Lett. 28(8), 086602-1-4 (2011). [PDF]

7. T. Chen, Jinhai Si*, X. Hou, S. Kanehira, K. Miura, and K. Hirao, “Luminescence of black silicon fabricated by high-repetition rate femtosecond laser pulses,” J. Appl. Phys. 110(7), 073106-1-4 (2011). [PDF]

8. S. Jia, L. Yan, Jinhai Si*, W. Yi, F. Chen, and X. Hou, “Third-order nonlinear optical properties of C60-doped bulk material and its application in ultrafast optical Kerr gate,” Opt. Eng. 50(11), 119001-1-4 (2011). [PDF]

2006-2010年

1. Jinhai Si*, S. Kanehira, K. Miura, and K. Hirao, “Composition dependence of photoinduced second-order nonlinearity of germanosilicate glasses,” Opt. Express 14(10), 4433-4438 (2006). [PDF]

2. T. Lin, Q. Yang, Jinhai Si*, T. Chen, F. Chen, X. Wang, X. Hou, and K. Hirao, “Ultrafast nonlinear optical properties of Bi₂O₃-B₂O₃-SiO₂ oxide glass,” Opt. Commun. 275(1), 230-233 (2007). [PDF]

3. Jinhai Si*, and K. Hirao, “Phase-matched second-harmonic generation in crosslinking polyurethane films by thermal-assisted optical poling,” Appl. Phys. Lett. 91(9), 91105-1-3 (2007). [PDF]

4. Q. Yang, T. Chen, Jinhai Si*, T. Lin, X. Hou, G. Qian, and J. Guo, “Femtosecond laser-induced birefringence and transient grating in lead (II) phthalocyanine-doped hybrid silica gel glasses,” Opt. Commun. 281(4), 831-835 (2008). [PDF]

5. L. Yan, J. Yue, Jinhai Si*, and X. Hou, “Influence of self-diffraction effect on femtosecond pump-probe optical Kerr measurements,” Opt. Express 16(16), 12069-12074 (2008). [PDF]

6. W. Tan, H. Liu, Jinhai Si*, and X. Hou, “Control of the gated spectra with narrow bandwidth from a supercontinuum using ultrafast optical Kerr gate of bismuth glass,” Appl. Phys. Lett. 93(5), 051109-1-3 (2008). [PDF]

7. T. Chen, Jinhai Si*, X. Hou, S. Kanehira, K. Miura, and K. Hirao “Photoinduced microchannels inside silicon by femtosecond pulses,” Appl. Phys. Lett. 93(5), 051112-1-3 (2008). [PDF]

8. H. Liu, W. Tan, Jinhai Si*, X. Liu, and X. Hou, “Acquisition of gated spectra from a supercontinuum using ultrafast optical Kerr gate of lead phthalocyanine-doped hybrid glasse,” Opt. Express 16(17), 13486-13491 (2008). [PDF]

9. C. Li, X. Shi, Jinhai Si*, T. Chen, F. Chen, S. Liang, Z. Wu, and X. Hou, “Alcohol-assisted photoetching of silicon carbide with a femtosecond laser,” Opt. Commun. 282(1), 78-80 (2009). [PDF]

10. C. Li, X. Shi, Jinhai Si*, T. Chen, F. Chen, A. Li, and X. Hou, “Fabrication of three-dimensional microfluidic channels in glass by femtosecond pulses,” Opt. Commun. 282(4), 657-660 (2009). [PDF]

11. J. Yue, L. Yan, Jinhai Si*, F. Chen, Q. Yang, X. Hou, G. Qian, and J. Guo, “Polarization dependence of optical Kerr effect in metallophthalocyanine-doped inorganic-organic hybrid materials,” Opt. Commun. 282(7), 1448-1451 (2009). [PDF]

12. L. Yan, J. Yue, Jinhai Si*, S. Jia, F. Chen, and X. Hou, “Polarization dependence of femtosecond optical Kerr signals in bismuth glasses,” IEEE Photon. Technol. Lett. 21(21), 1606-1608 (2009). [PDF]

13. C. Li, Jinhai Si*, F. Chen, X. Shi, T. Chen, and X. Hou, “Fabrication of three-dimensional microchannels inside silicon using a femtosecond laser,” J. Micromech. Microeng. 19(12), 125007-1-4 (2009). [PDF]

14. L. Yan, Jinhai Si*, F. Chen, S. Jia, Y. Zhang, and X. Hou, “Pump power dependence of Kerr signals in femtosecond cross pump-probe optical Kerr measurements,” Opt. Express 17(24), 21509-21514 (2009). [PDF]

15. C. Li, X. Shi, Jinhai Si*, T. Chen, F. Chen, P. Zhang, and X. Hou, “Photoinduced multiple microchannels inside silicon by a femtosecond laser,” Appl. Phys. B. 98(2-3), 377-388 (2010). [PDF]

16. W. Tan, Y. Yang, Jinhai Si*, J. Tong, W. Yi, F. Chen, and X. Hou, “Time-resolved shape measurement of objects using ultrafast optical Kerr gate of bismuth glass,” J. Appl. Phys. 107(4), 043104-1-3 (2010). [PDF]

17. S. Jia, L. Yan, Jinhai Si*, W. Yi, F. Chen, X. Hou, “Self-focusing in two-color collinear optical Kerr measurements,” Opt. Commun. 283(21), 4346-4349 (2010). [PDF]

18. H. Liu, H. Zhang, Jinhai Si*, J. Zhang, L. Yan, X. Wei, X. Wen, and X. Hou, “Pump power dependence of the electron-hole plasma luminescence in Ga-doped ZnO film,” Opt. Commun. 283(24), 5203-5206 (2010). [PDF]

2006年以前

1. S. Kanehira, Jinhai Si, J. Qiu, K. Fujita, and K. Hirao, “Periodic nanovoid structures via femtosecond laser irradiation”, Nano Lett. 5, 1591 (2005).

2. Jinhai Si, J. Qiu, J. Zhai, Y. Shen, Z. Meng, and K. Hirao “Phase-matched second-harmonic generation in bulk azodye-doped polymers by all-optical poling”, J. Appl. Phys. 95, 3837 (2004).

3. Jinhai Si, Z. Meng, S. Kanehira, J. Qiu, B. Hua and K. Hirao “Multiphoton-induced periodic microstructures inside bulk polymers by multibeam laser interference ” Chem.Phys.Lett. 399, 276 (2004).

4. J. Qiu, X. Jiang, C. Zhu, M. Shirai, Jinhai Si, N. Jiang, and K. Hirao, “Manipulation of gold nanoparticles inside transparent materials” Angew. Chem. Int. Ed. 43, 2230(2004).

5. J. Qiu, X. Jiang, C. Zhu, H. Inouye, Jinhai Si, K. Hirao, “Optical properties of structurally modified glasses doped with gold ions”, Opt. Lett. 29, 370(2004).

6. F. Ren, R. Li, C. Cheng, H. Wang, J. Qiu, Jinhai Si, and K. Hirao, “Giant enhancement of second harmonic generation in a finite photonic crystal with a single defect and dual-localized modes” Phys. Rev. B 70, 245109 (2004).

7. Jinhai Si, J. Qiu, et al. “Photoinduced birefringence in azodye-doped materials by a femtosecond laser” Appl. Opt. (LPEO), 42, 7171 (2003).

8. G. Qian, Jinhai Si, J. Guo, et al. “Holographic volume gratings in bulk perylene-orange-doped hybrid inorganic-organic materials by the coherent field of a femtosecond laser” Appl. Phys. Lett. 83, 2327 (2003).

9. J. Guo, Jinhai Si, G. Qian, et al. “Photoinduced birefringence in bulk azodye-doped hybrid inorganic-organic materials by a femtosecond laser” Chem. Phys. Lett. 378, 553 (2003).

10. Y. Guo, Jinhai Si, G. Qian, J. Qiu, M. Wang, K. Hirao, “Second-order nonlinearity in bulk azodye-doped hybrid inorganic-organic materials by nonresonant all-optical poling” Chem. Phys. Lett. 381, 677 (2003).

11. K. Tanaka, Y. Yonesaki, Jinhai Si, K. Hirao, “Second-harmonic generation in optically poled Y52 filter glass”, Opt. Commun,225, 387 (2003).

12. J. Qiu, X. Jiang, C. Zhu, Jinhai Si, et al. “Photostimulated long-lasting phosphorescence in rare-earth-doped glasses” Chem. Lett.32, 750 (2003).

13. Jinhai Si, J. Qiu, and K. Hirao, “Photoinduced permanent gratings inside bulk azodye-doped polymers by coherent field of a femtosecond laser”, Appl. Phys. Lett. 80, 359 (2002).

14. Jinhai Si, J. Qiu, and K. Hirao, “Photofabrication of periodic microstructues in azodye-doped polymers by interference of laser beams”, Appl. Phys. B 75, 847 (2002).

15. Y. Yonesaki, K. Tanaka, Jinhai Si, K. Hirao, “Second-harmonic generation in optically poled tellurite glasses doped with V₂O₅”, J. of Physics-Condensed Matter, 14 (49), 13493 (2002).

16. J. Qiu, M. Shirai, T. Nakaya, Jinhai Si, et al. “Space-selective precipitation of metal nanoparticles inside glasses” Appl. Phys. Lett. 81, 3040 (2002).

17. Y. Yonesaki, K. Tanaka, A. Narazaki, Jinhai Si, K. Hirao, “Relaxation phenomena in second-order nonlinearity of thermally and optically poled Nb2O5-TeO2 glasses” J. Phys. D: Appl. Phys. 35, 2026 (2002).

18. Jinhai Si, J. Qiu, K. Kitaoka, and K. Hirao, “Photoinduced phase-matched second-harmonic generation in azodye-doped polymer films”, J. Appl. Phys. 89, 2029(2001).

19. J. Qiu, Jinhai Si, K. Hirao, “Photoinduced stable second-harmonic generation in chalcogenide glasses”, Opt. Lett. 26, 914(2001).

20. J. Zhai, Y. Shen, Jinhai Si, J. Qiu, and K. Hirao, “The fabrication of permanent gratings in bulk polymer by a femtosecond laser”, J. Phys. D: Appl. Phys. 34, 3466 (2001).

21. N. Matsuoka, K. Kitaoka, Jinhai Si, K. Fujita, K. Hirao, “Second-order nonlinearity and optical image storage in phenyl-silica hybrid films doped with azo-dye chromophore using optical poling technique”, Opt. Commun. 185, 467(2001).

22. J. Qiu, C. Zhu, T. Nakaya, Jinhai Si, Kazuyuki Hirao, “Space-selective valence state manipulation of transition metal ions inside glasses by a femtosecond laser” Appl. Phys. Lett. 79, 3567 (2001).

23. C. Yang, J. Qin, J. Zhao, Jinhai Si, et al. “Synthesis and third-order optical nonlinearity of some salts comprising planar pomplex cation and anion” Synthetic Metals, 120, 789 (2001).

24. C. Yang, J. Qin, Q. Yang, Jinhai Si, et al. “Third-order nonlinear optical properties of new square planar complexes with donor-metal-acceptor structure” Synthetic Metals, 121, 1491 (2001).

25. Jinhai Si, Y. Kondo, J. Qiu, K. Kitaoka, N. Sugimoto, T. Mitsuyu, and K. Hirao “Band-gap dependence of optically encoded second-harmonic generation in Bi2O3-B2O3-SiO2 glasses” Opt. Commun, 180, 179 (2000).

26. Jinhai Si, J. Qiu, and K. Hirao, “Controlling the noncentrosymmetry of azodye-doped polymers by nonresonant dual-frequency coherent excitation”, Appl. Phys. Lett., 77, 3887 (2000).

27. K. Kitaoka, Jinhai Si, T. Mitsuyu, and K. Hirao “Photoinduced highly efficient second-harmonic generation in azo-dye doped thick films”, Jpn. J. Appl. Phys. 39, L363(2000).

28. J. H. Wang, Y. Shen, Jinhai Si, “Synthesis and Solid-State Polymerization of 5-(p- methylthio-o-Methyl-Pyrimidinyl)-2,4-Pentadiyn-1-ol and the Third-Order Optical Nonlinearity of Its Derivatives”, Journal of Materials Science 35, 5981 (2000).

29. J. Qiu, P.K.Kazanski, Jinhai Si, K. Miura, and T. Mitsuyu, K. Hirao, and A.L. Gaeta, “Memorized polarization-dependent light scattering in rare-earth-ion-doped glass”, Appl. Phys. Lett. 77, 1940 (2000).

30. G. Xu, X. Liu, Jinhai Si, P. Ye, Z. Li, Y. Shen, "A modified theory for photoinduced molecular polar alignment in azopolymers”, Opt. Lett., 25, 329(2000).

31. X. Liu, G. Xu, Jinhai Si, P. Ye, Z. Li, Y. Shen, "Effect of temperature on the optical poling process in a side-chain polymer system”, J. Appl. Phys. 88, 3848(2000).

32. X. Liu, G. Xu, Jinhai Si, P. Ye, Z. Li, Y. Shen, "Erasure effect of the reading beam on the decay process of c(2) in all-optical poling”, Appl. Phys. B, 539 (2000).

33. J. H. Wang, Y. Shen, C. Yu and Jinhai Si, “Synthesis and Solid-State Polymerization of 5-(2-methylthio4-methylpyrimidin-5-yl)penta-2,4-diyn-1-0l and several of its Derivatives” The Royal Society of Chemistry, Perkin Trans.I, 1455(2000).

34. Z. Guo, Y. Li, F. Bai, J. Yan, Z. Ge, D. Zhu, Jinhai Si, et al. “Langmuir-Blodgett films and optical second-harmonic generation of a crowned [60]fulleropyrrolidine” J. Phys. Chem. Solids, 61, 1089 (2000).

35. Z. Guo, Y. Li, F. Bai, J. Yan, Z. Ge, D. Zhu, Jinhai Si, P. Ye, “Langmuir-Blodgett films and optical SHG of a crowned (60) fulleropyrrolidine” Appl. Phys. B, 71, 545 (2000).

36. Z. Guo, Y. Li, J. Yan, F. Bai, F. Li, D. Zhu, Jinhai Si, P. Ye, “Photophysical properties of a crown ether-bearing [60]fulleropyrrolidine” Appl. Phys. B, 70, 257(2000).

37. Jinhai Si, K. Kitaoka, T. Mitsuyu, K. Hirao, “Optical image storage based on all-optical poling in polymer films” Jpn. J. Appl. Phys. 38, L 390(1999).

38. Jinhai Si, K. Kitaoka, P. Ye, and K. Hirao “Thermosetting enhancement of the light-induced polar orientation stability of molecules in polymers”, J. Appl. Phys. 85, 8018 (1999).

39. Jinhai Si, K. Kitaoka, T. Mitsuyu, and K. Hirao, “Optically encoded second-harmonic generation in germanosilicate glass via a band-to-band excitation”, Appl. Phys. Lett. 75, 307(1999).

40. Jinhai Si, K. Kitaoka, J. Qiu, T. Mitsuyu, and K. Hirao, “Optically encoded second-harmonic generation in germanosilicate glass by a femtosecond laser”, Opt. Lett. 24, 911 (1999).

41. X. Liu, Jinhai Si, Q. Yang, G. Xu, P. Ye, et al., “Third-order optical nonlinearity of the carbon nanotubes” Appl. Phys. Lett. 74, 164 (1999).

42. K. Kitaoka, Jinhai Si, T. Mitsuyu, and K. Hirao “Optical-poling of azo-dye doped thin films using an ultra short pulse laser” Appl. Phys. Lett. 75, 157(1999).

43. G. Xu, Jinhai Si, X. Liu, Q. Yang, P. Ye, Z. Li, Y. Shen, "Comparison of the temperature dependence of optical poling between guest-host and side-chain polymer films”, J. Appl. Phys. 85, 681 (1999).

44. K. Kitaoka, Jinhai Si, T. Mitsuyu, and K. Hirao “Optical-poling of an azo-dye chromophore doped silica hybrid thin films”, Journal of the Ceramic Society of Japan 107, 522(1999).

45. C. Yang, J. Qin, Jinhai Si, et al. “Third-order resonant nonlinearities of some organometallic salts containing metal” Synthetic Metals, 102, 1578 (1999).

46. X. Liu, G. Xu, Jinhai Si, P. Ye, T. Lin, B. Peng, "The structure effect of aquarylium cyanine dyes on the third-order optical nonlinearities in the ground state and the excited state", Chin. Phys. Lett. 16, 571 (1999).

47. G. Xu, X. Liu, Jinhai Si, P. Ye, Z. Li, Y. Shen, "Optical poling in a cross-linkable polymer system”, Appl. Phys. B. 68, 693 (1999).

48. G. Xu, Q. Yang, Jinhai Si, X. Liu, P. Ye, Z. Li, Y. Shen, "Application of all-optical poling in reversible optical storage in azopolymer films”, Opt. Commun. 159, 88 (1999).

49. K. Kitaoka, N. Matsuoka, Jinhai Si, T. Mitsuyu, and K. Hirao “Optical poling of phenyl-silica hybrid thin films doped with azo-dye chromophore” Jpn. J. Appl. Phys. 38, L1029(1999).

50. D. Zhu, Z. Guo, Y. Li, F. Bai, F. Li, Jinhai Si, P. Ye, “Photophysical properties of a novel crowned [60]fulleropyrrolidine” Synthetic Metals, 102, 1496 (1999).

51. R. Yu, S. Lu, H. Chen, X. Huang, J. Huang, B. Wu, Jinhai Si, “Rational synthesis, structural characterization and the third-order nonlinear optical properties of two new M-Cu-S (M = Mo or W) clusters” CHINESE J CHEM, 17, 42 (1999).

52. Jinhai Si, P. Ye, Y. Shen, K. Hirao, “Optical poling and its application in optical storage of a polyimide film with high glass transition temperature” Appl. Phys. Lett. 72, 762 (1998).

53. Jinhai Si, T. Mitsuyu, P. Ye, Y. Shen, K. Hirao, “Optical storage in an azobenzene-polyimide film with high glass transition temperature”, Opt. Commun, 147, 313(1998).

54. G. Xu, Jinhai Si, X. Liu, Q. Yang, P. Ye, “Permanent optical poling in polyurethane via thermal cross-linking”, Opt. Commun. 153, 95(1998).

55. Q. Yang, Jinhai Si, X. Liu, G. Xu, P. Ye, Z. Lei, X. Zhan, M. Yang, "Nonlinear optical properties of some new organic copolymers”, Chin. Phys. Lett. 15, 189 (1998).

56. Q. Yang, G. Xu, X. Liu, Jinhai Si, P. Ye, “Phase-modulation effects in degenerate four-wave mixing”, Appl. Phys. B 66, 435(1998).

57. Q. Yang, G. Xu, X. Liu, Jinhai Si, P. Ye, “Phase modulation induced two-wave mixing in temporal-nonlocal medium”, Appl. Phys. B 66, 589(1998).

58. M. Yang, L. Zhang, Z. Lei, P. Ye, Jinhai Si, et al. “pi-conjugated soluble nickel-polyyne copolymer: Synthesis and third-order optical nonlinearity” JOURNAL OF APPLIED POLYMER SCIENCE, 70, 1165 (1998).

59. Jinhai Si, G. Xu, X. Liu, Q. Yang, P. Ye, “All-optical poling of a polyimide film with azobenzene chromophore”, Opt. Commun., 142, 71(1997).

60. Jinhai Si, Y. Wang, Q. Yang, P. Ye, “Charge-separated-state enhancement of the optical nonlinearity of a photosensitizer-electron acceptor triad assembly”, Appl. Phys. B 64, 663(1997).

61. Y. Wang, Jinhai Si, J. Zhao, B. Zou, P. Ye, “Ultrafast optical bistable behaviors of vanadyl phthalocyanine-doped polymer film quasi-waveguide and waveguide”, Thin Solid films. 298, 215(1997).

62. Y. Wang, Jinhai Si, Q. Yang, P. Ye, “Photoinduced enhancement of the optical nonlinearity in azobenzene compound on the picosecond time scale”, Acta Physic Sinica 6,504(1997).

63. J. Zhao, Y. Wang, Jinhai Si, P. Ye, “Excited-state enhancement of optical nonlinearities of diakynyl complexes”, J. Non. Opt. Phys. Mat. 6,109(1997).

64. C. Yang, J. Qin, D. Liu, Y. Wang, Jinhai Si, et al. “Synthesis and third-order optical nonlinearity of organometallic salts(CpFeBz)(n)M(L)(2) (L = mnt or dmit)” ACTA CHIMICA SINICA, 55, 846 (1997).

65. Jinhai Si, Y. Wang, Q. Yang, P. Ye, “Dynamic studies of charge-separated-state enhancement of the optical nonlinearity of a porphyrin heterodimer” Appl. Phys. Lett. 69, 1832(1996).

66. Jinhai Si, Y. Wang, J. Zhao, B. Zou, P. Ye, “Picosecond optical bistability in metallophthalocyanine-doped polymer film waveguides”, Opt. Lett. 21, 357(1996).

67. Jinhai Si, Q. Yang, Y. Wang, P. Ye, “Excited-state enhancement of the third-order optical nonlinearity of a square planar complex”, Opt. Commun., 132, 311(1996).

68. Jinhai Si, J. Zhao, Y. Wang, P. Ye, “Theoretical studies on laser-induced gratings in organic photoisomers”, Acta Physica Sinica, 5, 511(1996).

69. Q. Yang, Jinhai Si, Y. Wang, P. Ye, “Phase Modulation effects in self-diffraction”, Phys. Rev. A 54, 1702(1996).

70. Y. Wang, Jinhai Si, J. Zhao, B. Zou, P. Ye, “Large nonresonant nonlinear optical susceptibility of Cu2O microcrystallites”,Chin. Phys. Lett. 13, 182(1996).

71. H. Tian, H. Mao, Q. Zhou, H. Xu, Jinhai Si, Y. Wang, Q. Yang, P. Ye, “Photoinduced electron transfer and dynamic behavior of charge-separated state nonlinear optical process in a self-assembled porphyrin supramolecular system”, Chem. Phys. Lett. 263, 471 (1996).

72. Jinhai Si, Y. Wang, J. Zhao, P. Ye, “Fluence dependence of nonlinear optical response of the cadmium texaphyrin”, Appl. Phys. Lett. 67, 1975(1995).

73. C. Li, Jinhai Si, M. Yang, R. Wang, “Excited-state nonlinear absorption in multi-energy-level molecular systems”, Phys. Rev. A 51, 569(1995).

74. C. Li, Jinhai Si, M. Yang, Y. Wang, “Excited-state nonlinear absorption and its application in photonic technology”, Acta Physica Sinica, 4, 569(1995).

75. C. Li, Jinhai Si, M. Yang, Y. Wang, “Excited-state nonlinear absorption and its description using density-matrix theory”, SCI CHINA SER A, 38, 985(1995).

76. J. Zhao, Jinhai Si, Y. Wang, P. Ye, “Light-induced noncentro-symmetry in A-D substituted azobenzene solutions”, Opt. Lett. 20, 1955 (1995).

77. Y. Wang, J. Zhao, Jinhai Si, P. Ye, “Dynamic studies of degenerate four-wave-mixing in azobenzene-doped polymer films with optical pump” J. Chem. Phys.103, 5357(1995).

78. Jinhai Si, M. Yang, Y. Wang, C. Li, “Nonlinear excited-state absorption in cadmium porphyrin-like”, Acta Physica Sinica. 3, 821(1994).

79. Jinhai Si, M. Yang, Y. Wang, C. Li, “Nonlinear absorption in metallo-porphyrin-like and its density matrix theory”, Opt. Commun. 109, 487(1994).

80. Jinhai Si, M. Yang, Y. Wang, C. Li, “Nonlinear excited-state absorption in cadmium texaphyrin solution”, Appl. Phys. Lett. 64, 3083(1994).

81. T. Ishiwata, T. Shinzawa, Jinhai Si, K. Obi, I. Tanaka, “Optical-optical double-resonance spectroscopy of Cl2” J. Mol. Spectrosc. 166, 321 (1994).

82. T. Ishiwata, Jinhai Si, and K. Obi “Optical-optical double resonance spectroscopy of Cl2: Analysis of the 1g(3P1p(1u) system”, J. Chem. Phys. 96, 5678 (1992). ) - A3

83. Jinhai Si, T. Ishiwata, and K. Obi, “Optical-Optical Double Resonance Spectroscopy of Cl2: Absolute Position of the Lowest-Lying 2g(3P2) Ion-pair State”, J. Mol. Spectrosc. 147, 334(1991).

联合培养学生发表论文

1. Sweejiang Yoo, J. Hou, W. Yi, Y. Li, W. Chen, L. Meng, Jinhai Si, and X. Hou, "Enhanced Response of Metformin towards the Cancer Cells due to Synergism with Multi-walled Carbon Nanotubes in Photothermal Therapy.," Scientific Reports 7, 1071 (2017).

2. Yulong Su, H. Hu, H. Feng, L. Li, B. Han, Y. Wen, Y. Wang, Jinhai Si, X. Xie, and W. Wang, "A novel generation scheme of ultra-short pulse trains with multiple wavelengths," Optics Communications 389, 176-180 (2017).

3. Lu Li, Y. Su, Y. Wang, X. Wang, Y. Wang, X. Li, D. Mao, and Jinhai Si, "Femtosecond Passively Er-Doped Mode-Locked Fiber Laser With WS2 Solution Saturable Absorber," IEEE Journal of Selected Topics in Quantum Electronics 23 (2017).

4. Hening Yang, W. Zhao, Jinhai Si, B. Zhao, and Y. Zhu, "126W fiber laser at 1018nm and its application in tandem pumped fiber amplifier," Journal of Optics 18 (2016).

5. Wenhui Yi, S. Yoo, S. Wang, J. Kong, Jinhai Si, Q. Gong, X. Hou, and M. S. Dresselhaus, "The nano necklace made of single-walled carbon nanotubes and an azo-containing polymer: Island-like carboxyl distribution, bead-like morphology formation, and photophysical properties manipulation," Carbon 108, 112-119 (2016).

6. Lu Li, P. Yan, Y. Wang, L. Duan, H. Sun, and Jinhai Si, "Yb-doped passively mode-locked fiber laser with Bi2Te3-deposited," Chinese Physics B 24 (2015).

7. Lu Li, Y. Wang, H. Sun, L. Duan, X. Wang, and Jinhai Si, "Single-walled carbon nanotube solution-based saturable absorbers for mode-locked fiber laser," Optical Engineering 54 (2015).

8. Lu Li, L. Pang, Z. Zhou, A. Zhang, J. He, Jinhai Si, and A. Lin, "Design of a Solid-Core Large-Mode-Area Bragg Fiber," Chinese Physics Letters 32 (2015).

9. Lu Li, Y. Wang, H. Sun, L. Duan, X. Wang, and Jinhai Si, "All-normal dispersion passively mode-locked Yb-doped fiber laser with Bi2Te3 absorber," Optical Engineering 54 (2015).

10. Huan Zhan, X. Yan, H. Guo, Y. Xu, J. He, F. Li, J. Yang, Jinhai Si, Z. Zhou, and A. Lin, "Line-plane-switching infrared bundle for push-broom sensing fiber imaging," Optical Materials 42, 491-494 (2015).

11. Huan Zhan, T. Shi, A. Zhang, Z. Zhou, Jinhai Si, and A. Lin, "Nonlinear characterization on mid-infrared fluorotellurite glass fiber," Materials Letters 120, 174-176 (2014).

12. Huan Zhan, A. Zhang, J. He, Z. Zhou, L. Li, T. Shi, X. Xiao, Jinhai Si, and A. Lin, "Enhanced 2.7 um emission of Er/Pr-codoped water-free fluorotellurite glasses," Journal of Alloys and Compounds 582, 742-746 (2014).

13. Huan Zhan, J. He, Z. Zhou, A. Zhang, Jinhai Si, and A. Lin, "1.23 um emission of Er-doped water-free fluorotellurite glasses," Physics and Chemistry of Glasses-European Journal of Glass Science and Technology Part B 54, 260-263 (2013).

14. Huan Zhan, A. Zhang, J. He, Z. Zhou, Jinhai Si, and A. Lin, "1.23 um emission of Er/Pr-doped water-free fluorotellurite glasses," Applied Optics 52, 7002-7006 (2013).

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