董新永

董新永

董新永,1975年生於山東莒縣,2002年博士畢業於南開大學。先後在新加坡南洋理工大學、香港理工大學從事博士後研究;2008年起任職中國計量大學,獲聘“錢江學者”特聘教授,入選浙江省151人才第一層次、浙江省傑青;2019年起任廣東工業大學“百人計畫”特聘教授。長期從事光纖通信與感測領域研究,主持完成多項國家和省部級科研項目,發表SCI論文240餘篇,引用4600餘次,H因子36,發表特邀報告20餘次,授權發明專利20餘項。積極參與組織國際學術會議,擔任ICOCN2019、ACP2018大會主席,ICOCN2016 & 2017技術委員會主席等。

基本介紹

  • 中文名:董新永
  • 出生日期:1975年
  • 職業:教師
  • 畢業院校:南開大學
  • 學位/學歷:博士
學科領域,教育背景,工作經歷,學術兼職,主要榮譽,主要著作,主要論文,智慧財產權,科研項目,

學科領域

科學學位:信息與通信工程
專業學位:信息與通信工程

教育背景

  • 1999.9-2002.7: 南開大學 現代光學研究所 光學專業(光電子與光通信研究方向),獲理學博士學位;
  • 1996.9-1999.7: 南開大學 現代光學研究所 光學專業(光存儲材料研究方向),獲理學碩士學位;
  • 1992.9-1996.7: 曲阜師範大學 物理系 物理教育專業,獲理學學士學位

工作經歷

  • 2019.03-至今:“百人計畫”特聘教授,廣東工業大學信息工程學院
  • 2008.3-2019.02:研究員,中國計量大學光電子技術研究所所長,錢江學者、浙江省傑青、浙江省新世紀151人才工程第一層次;
  • 2006.7-2008.5: 博士後研究員(Postdoctoral Fellow), 香港理工大學電機工程系(獲香港理工大學博士後研究基金資助);
  • 2004.7-2006.6: 博士後研究員(Postdoctoral Research Fellow),南洋理工大學網路技術研究中心(獲新加坡千禧年基金資助);
  • 2002.10-2004.6:研究員(Research Fellow),新加坡南洋理工大學網路技術研究中心;
  • 2001.5-2002.5: 研究助理(Research Assistant),香港理工大學電機工程系。

學術兼職

  • Photonic Sensors、Journal of Sensors、Advances in Materials Science and Engineering(客座)、自動化與儀器儀表等學術期刊編委
  • 國際計量技術聯合會光電子學分會(IMEKO-TC2)理事;
  • IEEE高級會員、IEEE Sensors and Systems Council成員;
  • 美國光學學會(OSA)高級會員;
  • 中國光學學會光電技術專委會常務委員;
  • 中國光學工程學會專家工作委員會委員;
  • 中國儀器儀表學會光機電技術與系統集成分會理事
  • 中國儀器儀表學會設備結構健康監測與預警分會理事;
  • International Conference on Optical Communications and Networks:Steering Committee

主要榮譽

曾獲得新加坡千禧年基金博士後獎、國際無線電聯盟(URSI)青年科學家獎、中國光學學會王大珩光學獎高校學生獎等。指導研究生獲得國際光學工程學會(SPIE)教育獎學金、第七屆全國青少年科技創新獎、中國儀器儀表學會特等獎學金、研究生國家獎學金、浙江省優秀碩士學位論文等。

主要著作

  1. X.Y. Dong,and H.Y. Tam,《Progress inOptical Fibers Research》第6章, 273-306, ISBN 1-60021-868-7, Nova Science Publishers, 美國, 2008.
  2. X.Y. Dong,P. Shum, and C.C. Chan, 《Progress in Smart Materials and Structures Research》第7章, 203-226, ISBN 1-60021-106-2, Nova Science Publishers, 美國, 2007.
  3. Chunliu Zhao,X.Y. Dong, H.Y. Fu, and H.Y. Tam, 《Recent Progress in Optical Fiber Research》第10章, 193-228, ISBN 979-953-307-652-1, InTech Open Access, 2011.
  4. 主編SPIE論文集: SPIE Proceeding 8201,2011 International Conference on Optical Instruments and Technology: Optoelectronic Measurement Technology and Systems

主要論文

  1. L.F. Bao,X.Y. Dong, P. Shum and C.Y. Shen, “Compact temperature sensor with highly germania-doped fiber-based Michelson interferometer, “IEEE Sensors Journal, 18(19), 8017-8021, 2018.
  2. L.F. Bao,X.Y. Dong,S.Q. Zhang and P. Shum, “Magnetic field sensor based on magnetic fluid-infiltrated phase-shifted fiber Bragg grating,”IEEE Sensors Journal, 18(10), 4008-4012, 2018.
  3. R. Ma, R. Kong, Y. Xia, X. Li, X. Wen, Y. Pan, andX.Y. Dong, “Microfiber polarization modulation in response to protein induced self-assembly of functionalized magnetic nanoparticles,”Appl.Phys. Lett., 113(3), p. 093503, 2018.
  4. Y. Xin, M. Zhao, H. Gong, C. Shen, C. Zhao andX.Y. Dong*, “Alcohol-filled side-hole fiber based Mach-Zehnder interferometer for temperature measurement,”Optical Fiber Technology, 46, 72-76, 2018.
  5. R.D. Ma, X.P. Li,X.Y. Dong, and Y.J. Xia, “Wavelength scanning distance interferometry using inflection point retrieval for phase unwrapping,”Opt. Commun., 410, 292-296, 2018.
  6. Z.Y. Guo, J. Song, Y. Liu, Z. Liu, P. Shum, andX.Y. Dong*, “Randomly spaced chirped grating-based random fiber laser,”Applied Physics B, 124(3), 48-50, 2018.
  7. R.D. Ma, X.P. Li,X.Y. Dong, and Y.J. Xia, “Magnetic field modulating in-line fiber polarization modulator based on microfiber and magnetic fluid,”Appl. Phys. Lett., 111(9), p. 093503, 2017.
  8. K. Ni, C.C. Chan, L.H. Chen,X.Y. Dong, et al, “A chitosan-coated humidity sensor based on Mach-Zehnder interferometer with waist-enlarged fusion bitapers,”Optical Fiber Technology, 33, 56-59, 2017.
  9. Y.Z. Zheng, L.H. Chen, J.Y. Yang, R. Raghunandhan,X.Y. Dong,et al, “Fiber optic Fabry-Perot optofluidic sensor with a focused ion beam ablated microslot for fast refractive index and magnetic field measurement,”IEEE J. Select. Top. Quant. Electron., 23(2), p. 7811269, 2017.
  10. Y.Y. Liu,X.Y. Dong, M. Jiang, X. Yu, and P. Shum, “Multi-wavelength erbium-doped fiber laser based on random distributed feedback,”Applied Physics B, 122(9), 240-2, 2016.
  11. J. Yang, L. Chen, Y. Zheng,X.Y. Dong, et al, “Heavy metal ions probe with relative measurement of fiber Bragg grating,”Sensors and Actuators B:Chemical, 230, 353-358, 2016.
  12. Y. Zheng, L. Chen,X.Y. Dong,et al, “Miniature pH Optical Fiber Sensor Based on Fabry-Perot Interferometer,”IEEE J. Sel. Top. Quant. Electron., 22(2), p. 7317723, 2016.
  13. J. Yang, Y. Zheng, L.H. Chen, C.C. Chan,X.Y. Dong, et al, “Miniature temperature sensor with germania-core optical fiber,”Optics Express23(14), 17687-17692, 2015.
  14. N. Zhang,X.Y. Dong, P. Shum, et al, “Magnetic field sensor based on magnetic-fluid-coated long-period fiber grating,”J. Opt., 17(6), p. 065402, Apr. 2015.
  15. J. Yang,X.Y. Dong, et al, "Intensity-modulated relative humidity sensing with polyvinyl alcohol coating and optical fiber gratings,"Appl. Opt., 54, 2620-2624 (2015).
  16. P. Hu,X.Y. Dong, et al, "Photonic crystal fiber interferometric pH sensor based on polyvinyl alcohol/polyacrylic acid hydrogel coating,"Appl. Opt., 54, 2647-2652 (2015).
  17. J. Yang,X.Y. Dong, et al, “Magnetic field sensing with reflectivity ratio measurement of fiber Bragg grating,”IEEE Sensors Journal, 15(3), 1372-1376, 2015.
  18. Y. Zheng,X.Y. Dong, et al, “Optical fiber magnetic field sensor based on magnetic fluid and microfiber mode interferometer,”Opt. Commun., 336, 5-8, 2015.
  19. L.L. Wang,X.Y. Dong, P. Shum, X. Liu, and H. Su, "Random laser with multiphase-shifted Bragg grating in Er/Yb-codoped fiber,"J. Lightwave Technol., 33(1), 95-99, 2015.
  20. L.L. Wang,X.Y. Dong, P. Shum, H.B. Su, “Tunable erbium-doped fiber laser based on random distributed feedback,”IEEE Photonics Journal, 6(5), p. 1501705, 2014.
  21. L.L. Wang,X.Y. Dong, P. Shum, et al, “Erbium-doped fiber laser with distributed Rayleigh output mirror,”Laser Physics, 24, p. 115101, 2014.
  22. C.Q. Huang,X.Y. Dong, et al, “Multiwavelength Brillouin- erbium random fiber laser incorporating a chirped fiber Bragg grating,”IEEE J. Select. Top. Quant. Electron., 20(5), p. 0902405, 2014.
  23. Y.Z. Zheng,X.Y. Dong, et al, “Magnetic field sensor with optical fiber bitaper-based interferometer coated by magnetic fluid,”IEEE Sensors Journal, 14(9), 3148-3151, 2014.
  24. X. Wang,X.Y. Dong, et al, “Optical fiber anemometer using silver-coated fiber Bragg grating and bitaper,”Sensors and Actuators A-Physical, 214, 230–233, 2014.
  25. C.Q. Huang,X.Y. Dong, et al, “Cascaded random fiber laser based on hybrid Brillouin-erbium fiber gains”IEEE Photon. Technol. Lett., 26(13), 1287-1290, 2014.
  26. Q.Q. Meng,X.Y. Dong, et al, “Optical fiber laser salinity sensor based on multimode interference effect,”IEEE Sensors Journal, 14(6), 1813-1816, 2014.
  27. P. Hu,X.Y. Dong, et al, “Sensitivity-enhanced Michelson interferometric humidity sensor with waist-enlarged fiber bitaper,”Sensors and Actuators B:Chemical, 194, 180-184, 2014.
  28. J. Zheng,X.Y. Dong, et al, “Power-referenced refractometer with tilted fiber Bragg grating cascaded by chirped grating,”Opt. Commun., 312, 106-109, 2014.
  29. J. Zheng,X.Y. Dong, et al, “Intensity-modulated magnetic field sensor based on magnetic fluid and optical fiber gratings,”Appl. Phys. Lett., 103(18), p. 183511, 2013.
  30. J. Zheng,X.Y. Dong, et al, “Magnetic field sensor using tilted fiber gating interacting with magnetic fluid,”Optics Express, 21(15), 17863-17868, 2013.
  31. X. Wang,X.Y. Dong, et al, “Hot-wire anemometer based on silver-coated fiber Bragg grating assisted by no-core fiber,”IEEEPhoton. Technol. Lett., 25(24), 2458-2430, Dec. 2013.
  32. Y. Xin,X.Y. Dong, et al, “Alcohol-filled side-hole fiber Sagnac interferometer for temperature measurement,”Sensors and Actuators A:Physical, 193, 182-185, 2013.
  33. Tao Li,X.Y. Dong, et al, “Humidity sensor with a PVA-coated photonic crystal fiber interferometer,”IEEE Sensors Journal, 13 (6), 2214-2216, 2013.
  34. S.Q. Zhang,X.Y. Dong, et al, “Simultaneous measurement of relative humidity and temperature with PCF-MZI cascaded by fiber Bragg grating,”Opt. Commun., 303, 42-45, 2013.
  35. X.Y. Dong, et al, “Compact anemometer using silver-coated fiber Bragg grating,”IEEE Photonics Journal, 4(5), 1381-1386, 2012.
  36. X.Y. Dong, et al, “Temperature-independent bending sensor based on a superimposed fiber Bragg grating,”IEEE Sensors Journal, 11 (11), 3019-3022, 2011.
  37. X.Y. Dong, et al, “Polyvinyl alcohol-coated hybrid fiber grating for relative humidity sensing,”J. Biomedical Optics, 16(7), p.077001, 2011.
  38. X.Y. Dong, et al, “Intensity-modulated fiber Bragg grating sensor system based on radio-frequency signal measurement,”Optics Letters, 33(5), 482-484, 2008.
  39. X.Y. Dong, H.Y. Tam, and P. Shum, “Temperature-insensitive strain sensor with polarization- maintaining photonic crystal fiber based Sagnac interferometer,”Appl.Phys. Lett., 90(15), p. 151113, 2007.
  40. X.Y. Dong, et al, “Multiwavelength Raman fiber laser with a continuously-tunable spacing,”Optics Express, 14(8), 3288-3293, 2006.
  41. X.Y. Dong, et al, “FSR-tunable Fabry-Pérot filter with superimposed, chirped fiber Bragg gratings”,IEEEPhoton. Technol. Lett., 18(1), 184-186, 2006.
  42. X.Y.Dong, et al, “Wavelength-selective all-fiber filter based on a single long-period fiber grating and a misaligned splicing point,”Opt. Commun., 258(2), 159-163, 2006.
  43. X.Y. Dong, et al, “Output power characteristics of tunable erbium-doped fiber ring lasers,”J. Lightwav. Technol., 23 (3), 1334-1341, 2005.
  44. X.Y. Dong, et al, “Tunable WDM filter with 0.8-nm channel spacing using a pair of long-period fiber gratings”,IEEEPhoton. Technol. Lett., 17(4), 795-797, 2005.
  45. X.Y. Dong, et al, “Temperature-insensitive tilt sensor with strain-chirped fiber Bragg gratings”,IEEEPhoton. Technol. Lett., 17(11), 2394-2396, 2005.
  46. X.Y. Dong, et al, “Concentration-induced nonuniform power in tunable erbium-doped fiber lasers”,Optics Letters, 29 (4), 358-360, 2004.
  47. X.Y. Dong, et al, “Tunable compensation of first-order PMD using a high-birefringence linearly chirped fiber Bragg grating,”IEEE Photon. Technol. Lett., 16 (3), 846-848, 2004.
  48. X.Y. Dong, et al, “Linear cavity erbium-doped fiber laser with over 100nm tuning range”,Optics Express, 11(14), 1689-1694, 2003.
  49. X.Y. Dong, et al, “Largely tunable CFBG-based dispersion compensator with fixed center wavelength”,Optics Express, 11(22), 2970-2974, 2003.
  50. X.Y. Dong, et al, “Effects of active fiber length on tunability of erbium-doped fiber ring lasers”,Optics Express, 11(26), 3622-3627, 2003.

智慧財產權

  1. 線上實時光纖光柵火災監測系統,申請號:200810120191.X
  2. 基於電調製的啁啾光纖光柵梳狀濾波器,專利號:ZL200910097190.2
  3. 一種隨機分布反饋光纖雷射器,專利號:ZL201110357736.0
  4. 可自校正的全分散式光纖拉曼散射感測器,專利號:ZL201110024773.X
  5. 一種基於拉錐結構的光纖光柵加速度感測器專利號:ZL201010553770.0
  6. 基於D型保偏光纖的液體折射率絕對測量感測器,專利號:CN201110399020
  7. 基於光纖光柵的熱線式流量感測器,專利號:CN201210016727
  8. 單截面分散式光纖光柵熱式流量感測器,專利號:CN201210016726
  9. 多截面分散式光纖光柵熱式流量感測器,專利號:CN201210016705
  10. 一種基於混合增益的多波長隨機光纖雷射器,專利號:CN201310601187
  11. 一種基於雙芯光纖微通道和磁流體的光纖磁場感測器,專利號:CN201721517607
  12. 基於磁流體填充微結構光纖的Sagnac磁場感測器,專利號:CN201721289102

科研項目

  1. 國家自然科學基金面上項目61775204:“基於摻銩光纖隨機光柵的2µm隨機雷射器研究”,2018.01-2021.12,主持;
  2. 國家自然科學基金應急管理項目61640408:“光子帶隙光纖製備及多維復用器件理論與關鍵技術”,2017.1-2017.12,子項目負責人;
  3. 國家自然科學基金面上項目61475147:“磁流體對光纖倏逝波的作用機理及其磁場感測套用研究”,2015.01-2018.12,主持;
  4. 浙江省自然科學基金重點項目LZ13F050001:“基於納米磁流體填充微結構光纖的磁控可調諧濾波器研究”,2014.1-2016.12,主持;
  5. 國家自然科學基金項目61010306042:“第19屆國際計量測試學會光電子計量會議”,2010.9-2010.12,主持;
  6. 國家自然科學基金項目60807021:“基於法布里-珀羅結構的光纖光柵功能型器件研究”,2009.01-2011.12,主持;
  7. 浙江省自然科學基金傑出青年團隊項目R1080087:“董新永研究團隊”,2009.1-2011.12,主持;
  8. 浙江省錢江人才計畫項目QJD1002002 “高性能光纖光柵先進制備技術研究”,2011.1-2012.12,主持;
  9. 留學人員科技活動項目擇優資助項目,2010,主持;
  10. 國家重點基礎研究發展計畫項目2010CB327800:“新一代光纖智慧型感測網與關鍵器件基礎研究”,2010.1-2014.8,參加;
  11. 浙江省科技廳重大科技專項2008C13041-1:“基於光纖感測技術的公路隧道與橋樑安全線上監測系統”,2008.10-2011.3,參與;
  12. 國家自然科學基金項目10674074:“新型量子點注入光子晶體光纖雷射器研究”,2007.01-2009.12,參與;
  13. 香港理工大學博士後研究基金項目G-YX77:“Photonic crystal fibre technology for novel fibre-optics sensor and laser developments”,2006.07-2008.06,共同主持;
  14. 新加坡千禧基金博士後研究基金項目:“Next generation optical communication technology”,2004.07-2006.06,共同主持。

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