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黄文财

发布时间:2017-06-09 浏览次数:50

姓名黄文财

职称、职位:教授、副系主任

邮箱:huangwcATxmu.edu.cn

电话:0592-2580141

办公地点:行政楼C604A




学历:

福建师范大学理学学士,物理学专业;

中国科学技术大学理学博士,光学专业。

研究方向:

光电传感技术与应用、光电信号处理

主讲课程:

工程光学基础(本科生课)

高等物理光学(研究生课)

信息光学(研究生课)

光纤激光器(研究生课)

学术兼职:

中国光学学会光电技术专业委员会委员

中国仪器仪表学会光机电技术与系统集成分会理事

福建省大学生光电设计竞赛组织委员会委员

美国光学学会(OSA)、电气和电子工程师协会(IEEE )、Elsevier 审稿人

成果奖励:

福建省新世纪优秀人才(2007

厦门大学第六批青年骨干教师重点培养人选(2005

厦门大学85周年校庆“中国工商银行”奖教金(科研类)2006

全国“华为杯”研究生电子设计竞赛优秀指导老师(2016


课题项目:

基于激光自混合效应的心血管医学信号高分辨率传感研究,国家自然科学基金(面上)项目,2017.01-2020.12,主持

基于两级光子晶体光纤的超短飞秒脉冲的产生与压缩研究,国家自然科学基金(青年)项目,2012.01-2014.12,主持


代表作:

[1]Wei Y, *Huang W, Wei Z, Zhang J, An T, Wang X, Xu H, 2017. Double-path acquisition of pulse wave transit time and heartbeat using self-mixing interferometry, Optics Communications, 393, 178-184.

[2]Wei Y, Wei Z, *Huang W, Zhang J, Zhang L, 2017. Non-invasive human extremely weak pulse wave measurement based on a high-precision laser self-mixing interferometer, Optoelectronics Letters, 13(2):143-146.

[3]Zhang Y, Wei Y, Chen C, *Huang W, Wang X, Xu H, 2016. Self-mixing interferometer based on frequency analysis method for accurate refractive index measurement, IEEE Photonics Journal, 8(2): 6801306.

[4]Wang X, Yuan H, Wang M, *Huang W, 2016. Continuous 1052, 1064 nm dual-wavelength Nd:YAG laser, Optics Communications, 376, 67-71.

[5]Chen C, Zhang Y, Wang X, Wang X, *Huang W, 2015. Refractive index measurement with high precision by a laser diode self-mixing interferometer, IEEE Photonics Journal, 7(3): 2600506.

[6]Chen M, Zhang Y, Chen C, Wang L, *Huang W, 2014. Damping microvibration measurement using laser diode self-mixing interference, IEEE Photonics Journal, 6(3): 5500508.

[7]Wang X, Wang L, Chen M, *Huang W, 2014. Micro-vibration parameters fast demodulation algorithm and experiment of self-mixing interference, Optoelectronics Letters, 10: 304-307.

[8]Wang L, Luo X, Wang X, *Huang W, 2013. Obtaining high fringe precision in self-mixing interference using a simple external reflecting mirror, IEEE Photonics Journal, 5(3): 6500207.

[9]Wang X, *Huang W, 2013. Band selective C- or L-band ASE source using unpumped erbium-doped fiber with an optical switch, Optics and Laser Technology, 48: 263-266.

[10]Jiang H, Chen J, *LiuT, Huang W, 2013. A novel wavelength detection technique of overlapping spectra in the serial WDM FBG sensor network, Sensors and Actuators A: Physical, 198:31-34.

[11]*Wang X, Huang W, Cai Z, 2012. Characteristics improvement of L-band superfluorescent fiber source using unpumped erbium-doped fiber, Chinese Physics Letters, 29(8): 084213.

[12]* Mosley P(#), Huang W(#), Welch M, Mangan B, Wadsworth W, Knight J, 2010. Ultrashort pulse compression and delivery in a hollow-core photonic crystal fiber at 540 nm wavelength, Optics Letters, 35(21): 3589-3591 (#co-first authors).

[13]Huang W, *Matthew G. Welch, Peter J. Mosley, Brian J. Mangan, William J. Wadsworth, Jonathan C. Knight, 2010. Ultrashort Pulse Delivery in Hollow-Core Photonic Bandgap Fiber at 540nm, CLEO/QELS, San Jose, CA in May (Oral presentation).

[14]Wang X, *Huang W, Xu H, Cai Z, 2010. Ultra-high-efficiency L-band erbium-doped superfluorescent fiber source with broadening linewidth, Optical Engineering, 49(8): 085003.

[15]Zhang Y, *Huang W, Wang X, Xu H, Cai Z, 2010. High-extinction-ratio multipassband filter with flat-top and low-dispersion, IEEE Journal of Quantum Electronics, 46(6): 860-870.

[16]Zhang Y, *Huang W, Wang X, Xu H, Cai Z, 2009. Design of flat-top interleaver and tunable dispersion compensator using cascaded Sagnac loop mirrors and ring resonators, Applied Optics, 48(32): 6213-6222.

[17]Zhang Y, *Huang W, Wang X, Xu H, Cai Z, 2009. A novel super-high extinction ratio comb-filter based on cascaded Mach-Zehnder Gires-Tournois interferometers with dispersion compensation, Optics Express, 17(16): 13685-13699.

[18]*Huang W, Wang X, Ye C, Xu H, Cai Z, 2009. Stable L-band superfluorescent fiber source using one pump, Optical Engineering, 48(7): 075002.

[19]*Huang W, Zheng B, Wang X, Xu H, Cai Z, 2008. Low ripple and high efficiency C+L-band erbium-doped fiber amplified spontaneous emission sources using dual-forward pumping configuration, Optical Engineering, 47(3): 004803JOE.

[20]*Huang W, Wang X, Zheng B, Xu H, Ye C, Cai Z, 2007. A stable and wideband L-band erbium superfluorescent fiber source using improved bi-directional pumping configuration, Optics Express, 15(15): 9778-9783.

[21]Wang X, *Huang W, 2006. Band-selective C- or L-Band erbium-doped fiber amplified spontaneous emission source, Optical Engineering, 45(2): 020501.

[22]*Huang W, Wang X, Cai Z, Xu H, Ye C, 2005. A pump power insensitive high stability L-band erbium-doped superfluorescent fiber source, J. Opt. A: Pure Appl. Opt. 7(4): 179-182.