浙江大學(xué)光電信息工程學(xué)系導(dǎo)師:張阿平
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浙江大學(xué)光電信息工程學(xué)系導(dǎo)師:張阿平 正文
姓名:張阿平
性別:男
所在學(xué)院:光電信息工程學(xué)系
職稱:副教授
個(gè)人簡介
1997年9月和2000年3月分別獲浙江大學(xué)學(xué)士和碩士學(xué)位。2003年12月獲香港理工大學(xué)博士學(xué)位。2005年12月起任浙江大學(xué)副教授(光學(xué)工程)。2006年5月至2008年6月為美國紐約州立大學(xué)布法羅分校高級研究學(xué)者。2011年7月至2012年1月為美國加州大學(xué)圣地亞哥分校訪問研究學(xué)者。
現(xiàn)在浙江大學(xué)光電系的光及電磁波研究中心從事光纖傳感和通信器件、激光微納加工技術(shù)等研究工作,為碩士生和博士生導(dǎo)師。
已經(jīng)在國際知名期刊和會(huì)議發(fā)表研究論文有70余篇,特邀報(bào)告3次。主持或曾主持包括國家自然科學(xué)基金項(xiàng)目、國防預(yù)研基金、教育部留學(xué)回國人員科研啟動(dòng)基金、科技部基礎(chǔ)研究973項(xiàng)目子課題等項(xiàng)目多項(xiàng)。曾擔(dān)任2009年國際光電子與通信會(huì)議(OECC)技術(shù)委員會(huì)委員、2010年亞太光傳感會(huì)議(APOS)技術(shù)委員會(huì)聯(lián)合主席、2010年光纖傳感器發(fā)展與產(chǎn)業(yè)化論壇程序委員會(huì)委員等。為國家自然科學(xué)基金、浙江等省自然科學(xué)基金、國內(nèi)外知名期刊如“Opt Lett”、“Opt Exp”、“Appl Opt”、“IEEE JSTQE”、“IEEE PTL”、“IEEE JLT”、“IEEE SJ”、“Sensors and Actuators”、“Opt Commun”等評審專家。
工作研究領(lǐng)域
1.光纖光柵、光纖傳感與通信器件; 2.激光微納加工及光子器件;
發(fā)表論文:
1.G.-F.Yan, A.P.Zhang, G.Ma, B.Wang, B.Kim,J.Im, S.He, and Y.Chung, “Fiber-optic acetylene gas sensor based on microstructured optical fiber Bragg gratings,” IEEE Photonics Technology Letters, 2011, DOI: 10.1109/LPT.2011.2164575.
2.H.Fu, X.Shu, A.P.Zhang, W.Liu, L.Zhang, S.He, and I.Bennion, “Implementation and characterization of liquid-level sensor based on a long-period fiber grating Mach-Zehnder interferometer,” IEEE Sensor Journal, 2011, DOI: 10.1109/JSEN.2011.2145416.
3.Y.Liu, C.Meng, A.P.Zhang, Y.Xiao, H.Yu, and L.Tong, “Compact microfiber Bragg Gratings with high-index contrast,” Optics Letters,Vol.36, Iss.16, pp.3115-3117, 2011.
4.A.P.Zhang, G.F.Yan, S.-R.Gao, S.He, B.Kim, J.Im, and Y.Chung,“Microfluidic refractive-index sensors based on small-hole microstructured optical fiber Bragg gratings,” Applied Physics Letters, Vol.98, pp.221109, 2011.
5.S.-R.Gao, A.P.Zhang, H.-Y.Tam, L.H.Cho, and C.Lu, “All-optical fiber anemometer based on laser heated fiber Bragg gratings,” Optics Express, Vol.19, Iss.11, pp.10124–10130, 2011.
6.J.-J.Zhu, A.P.Zhang, B.Zhou, F.Tu, J.-T.Guo, W.-J.Tong, S.He, and W.Xue,“Effects of doping concentrations on the regeneration of Bragg gratings in hydrogen loaded optical fibers,” Optics Communications, Vol.284, pp.2808-2811, 2011.
7.M.Yin, B.Gu, Q.Zhao, J.Qian, A.P.Zhang, Q.An, and S.He, “Highly sensitive and fast responsive fiber-optic modal interferometric pH sensor based on polyelectrolyte complex and polyelectrolyte self-assembled nanocoating,” Analytical and Bioanalytical Chemistry, Vol.399, No.10, pp.3623-3631, 2011.
8.B.Gu, M.-J.Yin, A.P.Zhang, J.-W.Qian, and S.He, “Optical fiber relative humidity sensor based on FBG incorporated thin-core fiber modal interferometer,” Optics Express, Vol.19, Iss.5, pp.4140–4146, 2011.
9.Z.Gui, J.Qian, M.Yin, Q.An, B.Gu and A.P.Zhang,“A novel fast response fiber-optic pH sensor based on nanoporous self-assembled multilayer films,”Journal of Materials Chemistry, Vol.20, pp.7754 -7760, 2010.
10.J.-J.Zhu, A.P.Zhang, T.H.Xia, S.He, and W.Xue, “Fiber-optic high-temperature sensor based on thin-core fiber modal interferometer,” IEEE Sensors Journal, Vol.10, No.6, pp.1415-1418, 2010.
11.W.S.Liu, Y.H.Fu, A.P.Zhang, and S.He, “Fiber Bragg grating based wireless sensor module with modulated radio-frequency signal,” IEEE Microwave and Wireless Components Letters, Vol.20, No.6, pp.358-360, 2010.
12.Y.C.Wang, A.P.Zhang, M.Jiang, B.Gu, and S.He, “Core-mode scatterer and fiber end-face mirror incorporated reflective long-period grating sensors,” Electronics Letters, Vol.46, Iss.10, pp.710-712, 2010.
13.B.Zhou, A.P.Zhang, B.Gu, and S.He, “Cladding-mode-recoupling-based tilted fiber-Bragg grating sensor with a core-diameter mismatched fiber section,” IEEE Photonics Journal, Vol.2, Iss.2, pp.152-157, 2010.
14.T.-H.Xia, A.P.Zhang, B.Gu, and J.-J.Zhu, “Fiber-optic refractive-index sensor based on transmissive and reflective thin-core fiber modal interferometer,” Optics Communications,Vol.283, Iss.10, pp.2136-2139, 2010.
15.Y.B.Bai and A.P.Zhang, “Novel periodic microstructures fabricated by multi-exposure two-beam interference lithography,” Asia Communications and Photonics Conference and Exhibition (ACP 2010), Shanghai, China, Nov.2010(Proc.SPIE 7990, 799006, 2010; doi:10.1117/12.888450).
16.A.P.Zhang, “Advance in Fiber-Optic Refractive-Index Sensors and Their Applications,” International Conference on Advanced Infocomm Technology 2010 (ICAIT 2010), ID: conf10a434, Hainan, China, July 2010.(invited talk)
17.Mingjie Yin, Bobo Gu, Jinwen Qian, and A.P.Zhang, “Novel Optical Fiber Hg2+ Sensor Based on Electrostatic Self-assembly Multilayers,” The 5th Symposium on Development and Industrialization of Optical Fiber Sensors, Guangzhou, China, July, 2010.
18.A.P.Zhang, “Progress on the development of wavelength modulated optical fiber sensors,” The 5th Symposium on Development and Industrialization of Optical Fiber Sensors, Guangzhou, China, July, 2010.(invited talk)
19.W.S.Liu, A.P.Zhang, H.Y.Tam, and S.He, “Ultrasensitive refractive index sensor based on polarization-maintaining PCF Sagnac interferometer,” The 2nd Asia-Pacific Optical Sensors Conference (APOS 2010), ID: P0089, Guangzhou, China, June 2010.
20.B.Gu, M.-J.Yin, A.Ping Zhang, and J.-W.Qian, “Optical fiber pH sensor with monotonic response in both acidic and alkaline solutions,” The 2nd Asia-Pacific Optical Sensors Conference (APOS 2010), ID: P0086, Guangzhou, China, June 2010.
21.F.Tu, J.Guo, B.Chen, W.Tong, and A.P.Zhang, “Influence of dopants on the high-temperature sustainability of FBGs fabricated in Ge/B codoped photosensitive fibers,” The 2nd Asia-Pacific Optical Sensors Conference (APOS 2010), ID: P0036, Guangzhou, China, June 2010.
22.B.Gu, M.-J.Yin, A.P.Zhang, J.-W.Qian, and S.He, “Low-cost high-performance fiber-optic pH sensor based on thin-core fiber modal interferometer,” Optics Express, Vol.17, No.25, pp.22296-22302, 2009.
23.M.Jiang, A.P.Zhang, Y.-C.Wang, H.Y.Tam, and S.He, “Fabrication of a compact reflective long-period grating sensor with a cladding-mode-selective fiber end-face mirror,” Optics Express, Vol.17, No.20, pp.17976–17982, 2009.
24.A.P.Zhang, Y.Shi, and S.He, “Fabrication of novel photonic crystal structures and devices,” Laser & Optoelectronics Progress, Vol.46, No.2, pp.39, 2009 (in Chinese, awarded as Optics in China 2008').
25.G.S.He, A.P.Zhang, Q.D.Zheng, H.-Y.Qin, P.N.Prasad, S.He, and H.Ågren, “Multi-focus structures of ultrashort self-focusing laser beam observed in a three-photon fluorescent medium,” IEEE Journal of Quantum Electronics, Vol.45, Issue 7, pp.816-824, 2009.
26.W.Liu, H.Fu, A.P.Zhang, and S.He, “Novel fiber Bragg grating sensor interrogation scheme based on radio-frequency signal measurement,” The 14th OptoElectronics and Communications Conference (OECC 2009), ID: P0087, Hong Kong, July 2009.
27.Y.Wang, M.Jiang, A.P.Zhang, W.Liu, and Y.Bai, “Fabrication of Long-Period Grating Based In-Fiber Reflection-Mode Biosensors,” International Conference on Advanced Infocomm Technology 2009 (ICAIT 2009), ID: conf07a480, Xi’an, China, June 2009.
28.A.P.Zhang, Y.Shi, and S.He, “Fabrication of Novel Photonic Crystal Structures and Devices,” 2009’ Laser Technology Forum, Shanghai, China, Mar.2009.(invited talk)
29.A.P.Zhang, S.He, K.-T.Kim, Y.-K.Yoon, R.Burzynski, M.Samoc, and P.N.Prasad, “Fabrication of submicron structures in nanoparticle-polymer composite by holographic lithography and reactive ion etching,” Applied Physics Letters, Vol.93, No.20, pp.203509, 2008.
30.L.-Y.Shao, S.-T.Lau, X.Dong, A.P.Zhang, H.L.W.Chan, H.-Y.Tam, and S.He, “High-frequency ultrasonic hydrophone based on a cladding-etched DBR fiber laser,” IEEE Photonics Technology Letters, Vol.20, No.8, pp.548-550, 2008.
31.A.P.Zhang, R.Burzynski, Y.-K.Yoon, P.N.Prasad, and S.He, “Double layer fabrication scheme for large area polymeric photonic crystal membrane on silicon surface by multi-beam interference lithography,” Optics Letters, Vol.33, No.12, pp.1303-1305, 2008 (selected for publication by Virtual Journal of Nanoscale Science & Technology, Volume 18, Iss.4, July 28, 2008).
32.A.P.Zhang, K.-T.Kim, R.Burzynski, M.Samoc, Y.-K.Yoon, P.N.Prasad, and S.He, “Patterning of Nanoparticles in Polymer by Holographic Lithography and Reactive Ion Etching,” HP Labs Photonics Interconnect Forum, ID:29, Palo Alto, USA, May 2008.
33.L.-Y.Shao, X.-Y.Dong, A.P.Zhang, H.-Y.Tam, and S.He, “High-resolution strain and temperature sensor based on distributed-Bragg-reflector fiber laser,” IEEE Photonics Technology Letters, Vol.19, No.20, pp.1598-1600, Oct.2007.
34.J.-H.Yan, A.P.Zhang, L.-Y.Shao, J.-F.Ding, and S.He, “Simultaneous measurement of refractive index and temperature by using dual long-period gratings with an etching process,” IEEE Sensor Journal, Vol.7, No.9, pp.1360-1361, Sept.2007.
35.L.-Y.Shao, A.P.Zhang, W.-S.Liu, H.-Y.Fu, and S.He, “Optical refractive-index sensor based on dual fiber-Bragg gratings interposed with a multimode-fiber taper,” IEEE Photonics Technology Letters, Vol.19, Iss.1, pp.30- 32, Jan.2007.
36.Z.G.Guan, A.P.Zhang, R.Liao, J.Meng, and S.He, “Wavelength detection of coherence-multiplexed sensors based on long-period grating pairs,” IEEE Sensors Journal, Vol.7, No.1, pp.36-37.Jan.2007.
37.L.-Y.Shao, S.-T.Lau, X.Dong, H.-Y.Tam, HLW Chan and A.P.Zhang, “Ultrasonic Hydrophone Based on Etched Distributed-Bragg-Reflector Fiber Laser Paper,”International Conference on Integrated Optics and Optical Fiber Communication (OECC/IOOC2007), ID: 111, Yokohama, Japan, July 2007.
38.J.F.Song, L.Y.Shao, A.P.Zhang, S.He, J.Kang, and M.Li, “A new fiber-Bragg-grating based dynamic-strain interrogation system,” Journal of Optoelectronics & Laser, Vol.18, pp.924-926, 2007 (in Chinese, selected for publication in English sister-journal: Optoelectronics Letters, Vol.2, pp.336-338, 2006).
39.A.P.Zhang, Z.G.Guan, and S.He, “Low-coherence reflectometry based on long-period grating Mach-Zehnder interferometers,” Applied Optics, Vol.45, Iss.22, pp.5733-5739, 2006.
40.Z.G.Guan, A.P.Zhang, J.Meng, and S.He, “Low-coherence interrogation scheme for multiplexed sensors based on long-period grating Mach-Zehnder interferometers,” IEEE Photonics Technology Letters, Vol.18, No.7, pp.832-834, 2006.
41.Z.G.Guan, A.P.Zhang, R.Liao, M.Jiang and S.He, “Coherence Multiplexing of Sensors based on Long-Period Fiber Grating Mach-Zehnder Interferometers,” Asia-Pacific Optical Communications 2006 (APOC’06), Guangju, Korea (Proceedings of SPIE, vol.6351, pp.635124.1-635124.9, 2006).
42.A.P.Zhang, X.W.Chen, J.H.Yan, Z.G.Guan, S.He, and H.Y.Tam, “Optimization and fabrication of stitched long-period gratings for gain-flattening of ultrawide-band EDFAs,” IEEE Photonics Technology Letters, Vol.17, No.12, pp.2559-2561, 2005.
43.A.P.Zhang, L.Y.Shao, J.F.Ding, and S.He, “Sandwiched long-period gratings for simultaneous measurement of refractive index and temperature,” IEEE Photonics Technology Letters, Vol.17, No.11, pp.2397 - 2399, 2005.
44.J.F.Ding, A.P.Zhang, L.Y.Shao, J.H.Yan, and S.He, “Fiber-taper seeded long-period grating pair for a highly sensitive refractive-index sensor,” IEEE Photonics Technology Letters, Vol.17, No.6, pp.1247 - 12 49, 2005.
45.A.P.Zhang, X.W.Chen, Z.G.Guan, S.He, H.Y.Tam, and Y.H.Chung, “Optimization of step-changed long-period gratings for gain-flattening of EDFAs,” IEEE Photonics Technology Letters, Vol.17 , No.1, pp.121 -123, 2005.
46.J.H.Yan, A.P.Zhang, L.Y.Shao, and S.He, “Broadband WDM filter based on an improved long-period grating pair,” Asia-Pacific Optical Communications 2005 (APOC’05), Shanghai, ID: 6019-78 (Proceedings of SPIE, Vol.6019, pp.601925.1-601925.8, 2005).
47.L.Y.Shao, A.P.Zhang, J.H.Yan, and S.He, “Discrimination between refractive index and temperature by using a sandwiched structure of long-period gratings,” Asia-Pacific Optical Communications 2005 (APOC’05), Shanghai, ID: 6019-65 (Proceedings of SPIE, Vol.6019, pp.60191S.1-60191S.8, 2005).
48.J.F.Ding, A.P.Zhang, H.Y.Fu, “Experimental characterization of the spectra of the etched long-period gratings,” Asia-Pacific Optical Communications 2005 (APOC’05), Shanghai, ID: 6019-127 (Proceedings of SPIE, Vol.6019, pp.60193H.1-60193H.9, 2005).
49.X.W.Chen, A.P.Zhang, S.He, and H.Y.Tam, “Stitched long-period fiber gratings for gain-flattening of broadband EDFAs,” Asia-Pacific Optical Communications 2004 (APOC’04), Beijing, ID: 5623-170 (Proceedings of SPIE, Vol.5623, n Part 2, 2004, pp.1021-1028).
50.A.P.Zhang, H.Y.Tam, and X.M.Tao, “Mode recoupling in a novel Bragg grating pair,” Optics Letters, Vol.28, No.7, pp.519-521, 2003.
51.A.P.Zhang, X.M.Tao, H.Y.Tam, “Effects of microstructures of smart fiber composites on embedded fiber Bragg grating sensors,” Journal of Reinforced Plastics and Composites, Vol.22, No.14, pp.1319-1329, 2003.
52.A.P.Zhang, W.H.Chung, H.Y.Tam, and X.M.Tao “Structurized fiber gratings based on mode recouplings for sensing applications,” The 16th International Conference on Optical Fibre Sensors (OFS-16), ID: WeP-20, Japan 2003.
53.A.P.Zhang, W.H.Chung, H.Y.Tam, and X.M.Tao, “Spectral tunable reflector based on concatenated long-period and fiber Bragg gratings,”Conference on Lasers and Electro-Optics Europe (CLEO/Europe’03), pp.652-652, June 2003.
54.A.P.Zhang, X.M.Tao, W.H.Chung, B.O.Guan, and H.Y.Tam, “Cladding-mode-assisted recouplings in concatenated long-period and fiber Bragg gratings,” Optics Letters, Vol.27, No.14, pp.1214-1216, 2002.
55.B.O.Guan, A.P.Zhang, X.M.Tao, and H.Y.Tam, “Step-changed long-period fiber gratings,” IEEE Photonics Technology Letters, Vol.14, No.5, pp.657-659, 2002.
56.A.P.Zhang, B.O.Guan, X.M.Tao, and H.Y.Tam, “Mode couplings in superstructure fiber Bragg gratings,” IEEE Photonics Technology Letters, Vol.14, No.4, pp.489 -491, 2002.
57.A.P.Zhang, B.O.Guan, X.M.Tao, and H.Y.Tam, “Experimental and theoretical analysis of fiber Bragg gratings under lateral compression,” Optics Communications, Vol.206, Iss.1-3, pp.81-87, 2002.
58.A.P.Zhang, X.M.Tao, W.H.Chung, B.O.Guan, and H.Y.Tam, “Novel mode recouplings in concatenated long-period and fiber Bragg gratings,” OSA Annual meeting & Exhibit 2002, ID-ThJ3, Orlando, US, 2002.
59.B.O.Guan, A.P.Zhang, X.M.Tao, H.L.W.Chan, C.L.Choy, H.Y.Tam, and M.S.Demokan, “A novel design of long-period grating filters,” Conference on Optical Fiber Communication 2002 (OFC’02), pp.674-675, Anaheim, California, 2002.
60.A.P.Zhang and X.M.Tao, “Effects of micro-structures of smart fiber composites on embedded fiber Bragg grating sensors,” International Conference of FRP Composites in Civil Engineering 2001 (CICE 2001), pp.1649-1653, Hong Kong, 2001.
61.A.P.Zhang, B.O.Guan, X.M.Tao, and H.Y.Tam, “Effects of compression induced birefringence on reflection spectra of fiber Bragg gratings,” International Symposium on Photonics & Applications 2001, Singapore (Proceedings of SPIE, Vol.4595, pp.94-99, 2001).
62.X.M.Tao, A.P.Zhang, D.X.Yang, and H.Y.Tam, “Spectrum response of embedded fiber Bragg grating sensors in complicated strain field,” International Conference on Composite Materials 13, ID-1350, Beijing 2001.
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姓名:吳金龍單位:化學(xué)系職稱:副教授基本信息個(gè)人簡介學(xué)習(xí)簡歷:年月年月杭州大學(xué),理學(xué)學(xué)士;年月年月杭州大學(xué),理學(xué)碩士;年月年月杭州大學(xué)(年月年月香港科技大學(xué)),理學(xué)博士。工……
日期:10-07 閱讀量:20 -
浙江大學(xué)化學(xué)系研究生導(dǎo)師:習(xí)玲玲
姓名:習(xí)玲玲單位:化學(xué)系職稱:副教授基本信息個(gè)人簡介現(xiàn)任浙江大學(xué)化學(xué)系副教授。杭州大學(xué)化學(xué)系分析化學(xué)碩士畢業(yè),至今相繼在浙江大學(xué)藥學(xué)院和化學(xué)系任教,浙江大學(xué)化學(xué)系分析化學(xué)博……
日期:10-07 閱讀量:20 -
浙江大學(xué)化學(xué)系研究生導(dǎo)師:姚加
姓名:姚加單位:化學(xué)系職稱:副教授基本信息個(gè)人簡介年月畢業(yè)于浙江大學(xué)化學(xué)系,獲得理學(xué)學(xué)士學(xué)位;年月到年月在化學(xué)系物理化學(xué)專業(yè)讀研究生,師從韓世鈞教授,于年月獲得博士學(xué)位;年……
日期:10-07 閱讀量:20 -
浙江大學(xué)化學(xué)系研究生導(dǎo)師:趙華絨
姓名:趙華絨單位:化學(xué)系職稱:副教授個(gè)人簡介浙江大學(xué)博士;美國訪問學(xué)者工作研究領(lǐng)域科研方向:有機(jī)化學(xué)、有機(jī)合成科研內(nèi)容:新型雜環(huán)化合物的合成及活性分析。含硒(硫)化合物的合……
日期:10-07 閱讀量:20 -
浙江大學(xué)化學(xué)系研究生導(dǎo)師:?,?/h3>
姓名:?,搯挝唬夯瘜W(xué)系職稱:特聘副研究員,碩士生導(dǎo)師基本信息個(gè)人簡介至今浙江大學(xué),化學(xué)系,特聘副研究員,碩士生導(dǎo)師浙江大學(xué),控制系,智能系統(tǒng)與控制研究所,博士后(導(dǎo)師,方群……
日期:10-07 閱讀量:20 -
浙江大學(xué)金融學(xué)導(dǎo)師:王義中
微軟雅黑宋體個(gè)人簡介王義中性別:男職稱:副教授出生年月:手機(jī):電子郵箱:微軟雅黑宋體主要著作、論文理解人民幣匯率的均衡、失調(diào)、波動(dòng)與調(diào)整,經(jīng)濟(jì)研究,年第期。宏觀經(jīng)濟(jì)不確定、……
日期:10-07 閱讀量:20 -
浙江大學(xué)金融學(xué)導(dǎo)師:楊柳勇
微軟雅黑宋體個(gè)人簡介楊柳勇性別:男所在學(xué)院:經(jīng)濟(jì)學(xué)院職稱:教授職務(wù):系主任出生年月:手機(jī):電子郵箱:浙江大學(xué)管理學(xué)博士,韓國首爾大學(xué)訪問教授和博士后研究。專業(yè)方向?yàn)閲H金融……
日期:10-07 閱讀量:20 -
浙江大學(xué)金融學(xué)導(dǎo)師:楊曉蘭
微軟雅黑宋體個(gè)人簡介楊曉蘭性別:女所在學(xué)院:經(jīng)濟(jì)學(xué)院職稱:副教授出生年月:手機(jī):聯(lián)系電話:電子郵箱:學(xué)術(shù)專長與興趣:行為金融、實(shí)驗(yàn)金融、證券市場研究。微軟雅黑宋體個(gè)人簡歷年……
日期:10-07 閱讀量:20 -
浙江大學(xué)金融學(xué)導(dǎo)師:鄒小芃
微軟雅黑宋體個(gè)人簡介鄒小芃性別:男所在學(xué)院:經(jīng)濟(jì)學(xué)院職稱:教授職務(wù):副所長出生年月:手機(jī):聯(lián)系電話:電子郵箱:微軟雅黑宋體個(gè)人簡歷年杭州大學(xué)數(shù)學(xué)系本科畢業(yè)年上海市社科院獲經(jīng)……
日期:10-07 閱讀量:20 -
浙江大學(xué)金融學(xué)導(dǎo)師:黃燕君
微軟雅黑宋體個(gè)人簡介黃燕君性別:女所在學(xué)院:經(jīng)濟(jì)學(xué)院職務(wù):金融研究所副所長職稱:教授出生年月:手機(jī):電子郵箱:主要研究領(lǐng)域及專長為國際金融、金融理論與政策,在金融學(xué)界有一定……
日期:10-07 閱讀量:20 -
浙江大學(xué)金融學(xué)導(dǎo)師:馬良華
微軟雅黑宋體個(gè)人簡介馬良華性別:男所在學(xué)院:經(jīng)濟(jì)學(xué)院職稱:教授職務(wù):研究所副所長出生年月:手機(jī):聯(lián)系電話:電子郵箱:微軟雅黑宋體個(gè)人簡歷年獲得浙江大學(xué)管理學(xué)院管理學(xué)博士學(xué)位……
日期:10-07 閱讀量:20 -
浙江大學(xué)金融學(xué)導(dǎo)師:何嗣江
微軟雅黑宋體個(gè)人簡介何嗣江性別:男所在學(xué)院:經(jīng)濟(jì)學(xué)院職稱:副教授出生年月:年月手機(jī):電子郵箱:微軟雅黑宋體個(gè)人簡歷,安徵師范大學(xué)數(shù)學(xué)系本科畢業(yè),獲理學(xué)士學(xué)位,安徽南陵師范學(xué)……
日期:10-07 閱讀量:20 -
浙江大學(xué)金融學(xué)導(dǎo)師:景乃權(quán)
微軟雅黑宋體個(gè)人簡介景乃權(quán)性別:男職務(wù):浙大江萬齡金融投資中心副主任兼秘書長職稱:副教授出生年月:手機(jī):聯(lián)系電話:電子郵箱:在校學(xué)習(xí)年、歐洲留學(xué)年、銀行工作年、浙大教書年,……
日期:10-07 閱讀量:20 -
浙江大學(xué)金融學(xué)導(dǎo)師:劉春杰
微軟雅黑宋體個(gè)人簡介劉春杰性別:女所在學(xué)院:經(jīng)濟(jì)職稱:副教授出生年月:微軟雅黑宋體個(gè)人簡歷年,副教授年,碩士生導(dǎo)師微軟雅黑宋體主要著作、論文已出版著作部發(fā)表論文余篇微軟雅黑……
日期:10-07 閱讀量:20 -
浙江大學(xué)金融學(xué)導(dǎo)師:羅德明
微軟雅黑宋體個(gè)人簡介羅德明性別:男所在學(xué)院:經(jīng)濟(jì)學(xué)院職稱:副教授出生年月:手機(jī)聯(lián)系電話電子郵箱年,畢業(yè)于英國倫敦大學(xué)。主要興趣是應(yīng)用經(jīng)濟(jì)學(xué),包括金融,制度,與發(fā)展經(jīng)濟(jì)學(xué)。……
日期:10-07 閱讀量:20