浙江大學(xué)光電信息工程學(xué)系導(dǎo)師：高士明 正文

　　姓名：高士明
　　性別：男
　　所在學(xué)院：光電信息工程學(xué)系
　　職稱：副教授

　　個人簡介
　　2000年7月獲得清華大學(xué)精密儀器與機(jī)械學(xué)系學(xué)士學(xué)位，2005年1月獲得清華大學(xué)光學(xué)工程專業(yè)博士學(xué)位。
　　在校期間曾獲得北京市三好學(xué)生、清華大學(xué)研究生 “航天海鷹杯”學(xué)術(shù)新秀、清華大學(xué)“優(yōu)秀研究生”、清華大學(xué)特等獎學(xué)金、中日友好NSK機(jī)械工學(xué)優(yōu)秀論文獎等多項(xiàng)獎勵。2005年1月至2006年9月于清華大學(xué)儀器科學(xué)與技術(shù)博士后流動站從事博士后研究工作，自2006年10月起進(jìn)入浙江大學(xué)光電信息工程學(xué)系任教至今。2009年11月至2011年9月受浙江大學(xué)“新星計(jì)劃”資助于美國University of California, Irvine交流訪問。2011年被評為浙江大學(xué)“求是青年學(xué)者”、博士生導(dǎo)師。
　　作為項(xiàng)目負(fù)責(zé)人完成了國家自然科學(xué)基金1項(xiàng)、教育部高校博士點(diǎn)基金1項(xiàng)、中國博士后科學(xué)基金（一等）1項(xiàng)，在研國家自然科學(xué)基金2項(xiàng)、浙江省自然科學(xué)基金1項(xiàng)。
　　目前主要研究非線性光學(xué)、光通信系統(tǒng)及器件、新型激光器等，發(fā)表論文87篇，其中SCI檢索52篇，申請中國發(fā)明專利8項(xiàng)，已授權(quán)7項(xiàng)，申請中國實(shí)用新型專利1項(xiàng)，已授權(quán)。獲得2011年浙江省高?？蒲谐晒劧泉?。
　　現(xiàn)為IEEE（國際電子電氣工程師協(xié)會）會員、OSA（美國光學(xué)學(xué)會）會員、SPIE（國際光學(xué)工程學(xué)會）會員。

　　工作研究領(lǐng)域
　　1．非線性硅光子學(xué) 2．光通信全光信號處理 3．新型激光器

　　工作研究項(xiàng)目：
　　1．2012年1月~2015年12月：國家自然科學(xué)基金面上項(xiàng)目“基于硅線波導(dǎo)的相位編碼信號全光波長轉(zhuǎn)換及碼型轉(zhuǎn)換研究”
　　2．2010年1月~2012年12月：國家自然科學(xué)基金面上項(xiàng)目“基于硅線波導(dǎo)脈沖壓縮和鎖模的新型脈沖激光器”
　　3．2010年1月~2011年12月：浙江省自然科學(xué)基金一般項(xiàng)目“用于光通信網(wǎng)絡(luò)的強(qiáng)度編碼到相位編碼的全光偏振不敏感碼型轉(zhuǎn)換研究”
　　4．2008年1月~2010年12月：國家自然科學(xué)基金青年科學(xué)基金“基于硅線波導(dǎo)的高速全光波長轉(zhuǎn)換研究”
　　5．2008年1月~2010年12月：國家教育部高等學(xué)校博士學(xué)科點(diǎn)專項(xiàng)科研基金新教師基金“SOI波導(dǎo)中的四波混頻效應(yīng)及其應(yīng)用研究”
　　6．2005年1月~2006年9月：第三十七批中國博士后科學(xué)基金一等資助金“光纖通信波段光子偏振糾纏態(tài)的研究”(一等資助全國共20人)

　　發(fā)表論文：
　　1．Bing Sun, Kai Hu, Daru Chen, Yizhen Wei, Shiming Gao, and Sailing He, “Wavelength-spacing tunable double-pumped multiwavelength optical parametric oscillator based on a Mach-Zehnder interferometer,” J．Lightwave Technol., 2012, 30 (12): 1937-1942.
　　2．Yanqiao Xie, Shiming Gao, and Sailing He, “All-optical wavelength conversion and multicasting for polarization-multiplexed signal using angled pumps in a silicon waveguide,” Opt．Lett., 2012, 37 (11): 1898-1900.
　　3．Shiming Gao and Xiaosheng Xiao, “All-optical wavelength multicasting based on cascaded four-wave mixing with a single pump in highly nonlinear fibers,” Opt．Commun., 2012, 285 (5): 784-789.
　　4．Qiang Liu, Shiming Gao, Lizhong Cao, and Sailing He, “Design of low-dispersion-discrepancy silicon waveguide for broadband polarization-independent wavelength conversion,” J．Opt．Soc．Am．B, 2012, 29 (2): 215-219.
　　5．Bing Sun, Kai Hu, Yizhen Wei, Daru Chen, Shiming Gao, Tianshu Wang, and Sailing He, “Double-pumped multiwavelength fiber optical parametric oscillator based on a Sagnac loop filter,” Opt．Lett., 2012, 37 (1): 106-108.
　　6．Salih K．Kalyoncu, Shiming Gao, En-Kuang Tien, Yuewang Huang, Dogukan Yildirim, Enver Adas, Stefan Wabnitz, and Ozdal Boyraz, “Stability analysis of pulsed cascaded Raman lasers in dispersion-managed systems,” J．Opt．Soc．Am．B, 2011, 28 (11): 2812-2819.
　　7．Yanqiao Xie, Ying Gao, Shiming Gao, Xudong Mou, and Sailing He, “All-optical multiple-channel logic XOR gate for NRZ-DPSK signals based on non-degenerate four-wave mixing in a silicon waveguide,” Opt．Lett., 2011, 36 (21): 4260-4262.
　　8．Yuewang Huang, En-Kuang Tien, Shiming Gao, Salih K．Kalyoncu, Qi Song, Feng Qian, Enver Adas, Dogukan Yildirim, and Ozdal Boyraz, “Electrical signal-to-noise ratio improvement in indirect detection of mid-IR signals by wavelength conversion in silicon-on-sapphire waveguides,” Appl．Phys．Lett., 2011, 99 (18): 181122/1-181122/3.
　　9．Yizhen Wei, Scott Howard, Adam Straub, Zinan Wang, Ji Cheng, Shiming Gao, and Chris Xu, “High sensitivity third-order autocorrelation measurement by intensity modulation and third harmonic detection,” Opt．Lett., 2011, 36 (12): 2372-2374.
　　10．Yanqiao Xie, Ying Gao, Shiming Gao, and Chester Shu, “Simultaneous all-optical amplification, inversion and format conversion based on self-induced nonlinear effects in a semiconductor optical amplifier,” Microw．Opt．Technol．Lett., 2011, 53 (6): 1320-1323.
　　11．Qiang Liu, Shiming Gao, Zhiqiang Li, Yanqiao Xie, and Sailing He, “Dispersion engineering of a silicon-nanocrystal-based slot waveguide for broadband wavelength conversion,” Appl．Opt., 2011, 50 (9): 1260-1265.
　　12．Zhiqiang Li, Shiming Gao, Qiang Liu, and Sailing He, “Modified model for four-wave mixing-based wavelength conversion in silicon micro-ring resonators,” Opt．Commun., 2011, 284 (8): 2215-2221.
　　13．Bing Sun, Daru Chen, and Shiming Gao, “Multi-wavelength fiber optical parametric oscillator with a tunable wavelength-spacing”, Chinese Journal of Lasers, 2011, 38 (2): 0202006 (in Chinese).
　　14．Shiming Gao, En-Kuang Tien, Yuewang Huang, and Sailing He, “Experimental demonstration of bandwidth enhancement based on two-pump wavelength conversion in a silicon waveguide,” Opt．Express, 2010, 18 (26): 27885-27890.
　　15．Shiming Gao, En-Kuang Tien, Qi Song, Yuewang Huang, and Salih Kagan Kalyoncu, “Experiment of C-band wavelength conversion in a silicon waveguide pumped by dispersed femtosecond laser pulse,” Chin．Phys．Lett., 2010, 27 (12): 124206/1-124206/3．
　　16．Shiming Gao, Zhiqiang Li, En-Kuang Tien, Sailing He, and Ozdal Boyraz, “Performance evaluation of nondegenerate wavelength conversion in a silicon nanowire waveguide,” J．Lightwave Technol., 2010, 28 (21): 3079-3085.
　　17．En-Kuang Tien,Yuewang Huang, Shiming Gao, Qi Song, Feng Qian, Salih K．Kalyoncu, and Ozdal Boyraz, “Discrete parametric band conversion in silicon for mid-infrared applications,” Opt．Express, 2010, 18 (21): 21981-21989.
　　18．Jiaojiao Fu, Daru Chen, Bing Sun, and Shiming Gao, “A Novel-configuration multi-wavelength Brillouin erbium fiber laser and its application in high-frequency switchable microwave generation,” Laser Phys., 2010, 20 (10): 1907-1912.
　　19．Shiming Gao, Zhiqiang Li, and Xingzhi Zhang, “Power-attenuated optimization for four-wave mixing-based wavelength conversion in silicon nanowire waveguides,” J．Electromagn．Waves Appl., 2010, 24 (8-9): 1255-1265．
　　20．Jiaojiao Fu and Shiming Gao, “High-purity microwave signal generation using a low-order harmonic-suppressed rational harmonic mode-locked fiber laser incorporating a Mach-Zehnder interferometer,” Microw．Opt．Technol．Lett., 2010, 52 (7): 1640-1645.
　　21．Shiming Gao,En-Kuang Tien, Qi Song, Yuewang Huang, and Ozdal Boyraz, “Ultra-broadband one-to-two wavelength conversion using low-phase-mismatching four-wave mixing in silicon waveguides,” Opt．Express, 2010, 18 (11): 11898-11903.
　　22．Shiming Gao, Ying Gao, and Sailing He, “Photonic generation of tunable multi-frequency microwave source,” Electron．Lett., 2010, 46 (3): 236-237．
　　23．Shiming Gao, Xingzhi Zhang, Zhiqiang Li, and Sailing He, “Polarization-independent wavelength conversion using an angled-polarization pump in a silicon nano-wire waveguide,” IEEE J．Sel．Topics Quantum Electron., 2010, 16 (1): 250-256.
　　24．Ying Gao and Shiming Gao, “Premodulation-free microwave frequency up/down-conversion using optical-fiber-stimulated Brillouin scattering,” J．Nonlinear Opt．Phys．Mater., 2009, 18 (4): 701-707.
　　25．Shiming Gao, Ying Gao, Hongyan Fu, Daru Chen, and Sailing He, “Microwave frequency up/downconversion based on dual-wavelength fibre laser,” Electron．Lett., 2009, 45 (18): 932-933.
　　26．Ying Gao, Shiming Gao, and Haiyan Ou, “All-optical frequency converter based on fiber four-wave mixing for bidirectional radio-over-fiber systems,” Microw．Opt．Technol．Lett., 2009, 51 (6): 1542-1545.
　　27．Shiming Gao, Hongyan Fu, and Ying Gao, “Photonic generation of microwave/millimeter-wave sources without cavity or modulation using fiber stimulated Brillouin scattering,” Microw．Opt．Technol．Lett., 2009, 51 (5): 1203-1206.
　　28．Xingzhi Zhang, Shiming Gao, and Sailing He, “Optimal design of a silicon-on-insulator nanowire waveguide for broadband wavelength conversion,” Prog．Electromagn．Res., 2009, 89: 183-198.
　　29．Xiangrui Miao, Shiming Gao, and Ying Gao, “A multicasting method based on four-wave mixing in highly nonlinear fibers,” Acta Phys．Sin., 2008, 57 (12): 7699-7704 (in Chinese).
　　30．Shiming Gao and Changxi Yang, “Two channels of entangled twin photons generated by quasi-phase-matched spontaneous parametric down-conversion in periodically poled lithium niobate crystals,” J．Opt．Soc．Am．B, 2008, 25 (5): 734-740.
　　31．Peng Dong, Xiaosheng Xiao, Yu Tian, Shiming Gao, and Changxi Yang, “Compensating power depletion due to stimulated Raman scattering in high-power delivery fiber via spectral inversion,” J．Opt．Soc．Am．B, 2008, 25 (1): 48-53.
　　32．Shiming Gao and Sailing He, “Four-wave mixing in left-handed materials,” J．Nonlinear Opt．Phys．Mater．(Invited Paper), 2007, 16 (4): 485-496.
　　33．Shiming Gao and Changxi Yang, “Prediction of multichannel polarization-entangled photon pairs in a single periodically poled lithium niobate with a monochromatic pump,” Opt．Lett., 2007, 32 (18): 2653-2655.
　　34．Ying Gao, Daru Chen, and Shiming Gao, “Stable multi-wavelength erbium-doped fiber laser based on dispersion-shifted fiber and Sagnac loop filter,” Chin．Opt．Lett., 2007, 5 (9): 519-521.
　　35．Yu Tian, Xiaosheng Xiao, Shiming Gao, and Changxi Yang, “All-optical switch based on two-pump four-wave mixing in fibers without a frequency shift,” Appl．Opt., 2007, 46 (23): 5588-5582.
　　36．Shiming Gao, “Wavelength management method of telecommunication-band polarization-entangled twin photons in periodically poled lithium niobate crystals,” Acta Photonica Sinica, 2007, 36 (5): 820-824.
　　37．Daru Chen, Shan Qin, Ying Gao, and Shiming Gao, “Wavelength-spacing continuously tunable multiwavelength erbium-doped fibre laser based on DSF and MZI,” Electron．Lett., 2007, 43 (9): 524-525.
　　38．Daru Chen, Haiyan Ou, Hongyan Fu, Shan Qin, and Shiming Gao, “Wavelength-spacing tunable multi-wavelength erbium-doped fiber laser incorporating a semiconductor optical amplifier,” Laser Phys．Lett., 2007, 4 (4): 287-290.
　　39．Xiaosheng Xiao, Shiming Gao, Yu Tian, and Changxi Yang, “Optimization of the net residual dispersion for self-phase modulation-impaired systems by perturbation theory,” J．Lightwave Technol., 2007, 25 (3): 929-937.
　　40．Shiming Gao, Changxi Yang, Xiaosheng Xiao, Yu Tian, Zheng You, and Guofan Jin, “Performance evaluation of tunable channel-selective wavelength shift by cascaded sum- and difference-frequency generation in periodically poled lithium niobate waveguides,” J．Lightwave Technol., 2007, 25 (3): 710-718.
　　41．Shiming Gao, Changxi Yang, Daru Chen, Shan Qin, and Ying Gao, “Bandwidth enhancement methods of telecom-region entangled twin photons via quasi-phase-matched spontaneous parametric down-conversion,” J．Nonlinear Opt．Phys．Mater., 2006, 15 (4): 513-521.
　　42．Shiming Gao, Changxi Yang, Xiaosheng Xiao, Yu Tian, Zheng You, and Guofan Jin, “Bandwidth enhancement and response flattening of cascaded sum- and difference-frequency generation-based wavelength conversion,” Opt．Commun., 2006, 266 (1): 296-301.
　　43．Xiaosheng Xiao, Changxi Yang, Shiming Gao, and Yu Tian, “Partial compensation of Kerr nonlinearities by optical phase conjugation in optical fiber transmission systems without power symmetry,” Opt．Commun., 2006, 265 (1): 326-330.
　　44．Yu Tian, Xiaosheng Xiao, Shiming Gao, Si Lu, and Changxi Yang, “Ultra-flat and broadband two-pump optical parametric amplifiers using a single-section highly nonlinear fiber,” Opt．Commun., 2006, 263 (1): 116-119.
　　45．Xiaosheng Xiao, Shiming Gao, Yu Tian, and Changxi Yang, “Analytical optimization of the net residual dispersion in SPM-limited dispersion-managed systems,” J．Lightwave Technol., 2006, 24 (5): 2038-2044.
　　46．Shiming Gao, Changxi Yang, Xiaosheng Xiao, Yu Tian, Zheng You, and Guofan Jin, “Wavelength conversion of spectrum-sliced broadband amplified spontaneous emission light by hybrid four-wave mixing in highly nonlinear, dispersion shifted fibers,” Opt．Express, 2006, 14 (7): 2873-2879.
　　47．Xiaosheng Xiao, Changxi Yang, Shiming Gao, and Houxun Miao, “Analysis of ultrashort-pulse second-harmonic generation in both phase- and group-velocity-matched structures,” IEEE J．Quantum Electron., 2005, 41 (1): 85-93.
　　48．Shiming Gao, Changxi Yang, and Guofan Jin, “Conventional-band and long-wavelength-band efficient wavelength conversion by difference-frequency generation in sinusoidally chirped optical superlattice waveguides,” Opt．Commun., 2004, 239 (4-6): 333-338.
　　49．Shiming Gao, Changxi Yang, Xiaosheng Xiao, and Guofan Jin, “Broadband and multiple-channel visible laser generation by use of segmented quasi-phase-matching gratings,” Opt．Commun., 2004, 233 (1-3): 205-209.
　　50．Shiming Gao, Changxi Yang, and Guofan Jin, “Flat broad-band wavelength conversion based on sinusoidally chirped optical superlattices in lithium niobate,” IEEE Photon．Technol．Lett., 2004, 16 (2): 557-559.
　　51．Shiming Gao, Changxi Yang, and Guofan Jin, “Analysis of power-dependent phase-matched four-wave mixing in dispersion-managed transmission systems,” Appl．Opt., 2003, 42 (36): 7126-7131.
　　52．Shiming Gao, Changxi Yang, and Guofan Jin, “Comparison of interchannel four-wave mixing with continuous waves, quasi-continuous waves and ultrashort pulses,” J．Nonlinear Opt．Phys．Mater., 2003, 12 (3): 377-384．
　　53．Shiming Gao, Changxi Yang, and Guofan Jin, “Wavelength converter based on linearly chirped gratings in lithium niobate through cascaded second-order processes,” Chin．Phys．Lett., 2003, 20 (8): 1272-1274.
　　54．Shiming Gao, Changxi Yang, and Guofan Jin, “Comparison of interchannel pulses four-wave mixing in SMF, NZDSF and HNLF,” Opt．Commun., 2002, 206 (4-6): 439-443．

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