高鹏

发布日期:2019/07/10      点击:[]

 

高鹏


 

出生年月

198411

 

副教授

学历(学位)

博士研究生(博士)

所属系别

物理系

行政职务

物理系主任

研究方向

成像光谱偏振技术,高光谱遥感探测,卫星遥感数据反演

联系方式

pgaoqust@163.com

个人简历(学习工作经历、研究经历,主要研究方向,取得主要成果、完成及承担的主要科研项目等)

高鹏,博士,副教授,硕士生导师。201312月于西安交通大学获博士学位,20167月至今西安交通大学空间光学研究所博士后。目前,主持参与项目10余项,主持国家自然科学基金青年项目1项,第61批中国博士后面上一等资助1项,陕西省博士后项目科学基金1项,国家气象卫星中心开放课题2项;作为骨干成员参与国家自然科学基金重点项目1项,国家自然科学基金面上项目1项,国家自然科学基金青年项目2项,国家863计划重点项目1项,国家重大专项1项,指导学生完成大学生创新项目5项。迄今,在国际高水平学术期刊发表SCI论文近40篇,其中第一或通讯作者20余篇;申请发明专利1项;参与出版教材1部;获“青岛科技大学第三届十佳班主任”“国家奖学金”等奖项20余项。

课题项目

[1]         国家自然科学基金,四分区相位延迟阵列成像光谱偏振技术研究,在研,主持。

[2]       中国博士后科学基金第61批面上项目一等,基于新型成像光谱偏振仪文物探测与鉴定技术研究,在研,主持。

[3]         陕西省博士后科学基金,一种相位可调成像光谱偏振技术的研究,,在研,主持。

[4]         国家卫星气象中心,MERSI热辐射定标及误差分析,在研,主持。

[5]         国家卫星气象中心,FY-3D在轨调制传递函数的评估,在研,主持。

[6]         青岛市,青岛地区温室气体CO2高光谱监测与大气污染预测系统开发,在研,骨干成员。

[7]         国家自然科学基金,动静态一体化干涉成像光谱偏振技术研究,在研,参与。

[8]         国家自然科学基金重点项目:平流层臭氧和大气风场近红外静态干涉成像探测新原理新技术研究,在研,参与。

[9]       国家863计划,图像、光谱、偏振态多维全光信息一体化获取技术,已结题,参与。

[10]      国家重大专项,基于高光谱观测卫星温室气体探测载荷二氧化碳产品反演技术研究,已结题,参与。

大学生创新项目(指导老师)

[1]         中国科学院大学生创新实践训练计划项目,单阵元超声脉冲Doppler血流成像,已结题,主持人:李浩南(14级应物)。

[2]         青岛科技大学校级大学生创新创业训练计划项目,高光谱图像处理技术研究,已结题, 主持人:王祎超(14级应物)。

[3]         中国科学院大学生创新实践训练计划项目,多通道超声内镜测试选通系统研制,已结题,主持人:徐建一(15级应物)。

[4]         青岛科技大学校级大学生创新创业训练计划项目,FY-3C/MERSI   红外辐射数据预处理在研,主持人:郑佚超(16级应物)。

[5]         青岛科技大学校级大学生创新创业训练计划项目,基于月球目标的FY-3D在轨传递调制函数评估,主持人:史传宇(16级应物)。

专利

[1]         高鹏,艾晶晶,张帅一,滕利华,一种基于四分区相位延迟阵列的全光信息获取装置及方法,专利申请号:201811609843.6

SCI论文:

2019

[1]         Peng Gao, Jingjing Ai, Xiaochen Hu, Qingying Chen and Xia   Wang. Polarization calibration of wide-field-of-view interference   polarization imaging spectrometer[J], Journal of Quantitative Spectroscopy   and Radiative Transfer, 2019, 224: 44–54.

[2]         Xiaochen   Hu, Jingjing Ai, Zhenyu Kong, Peng Gao#, Shuaiyi Zhang, Xia   Wang #. Research on the optical axis of the birefringent crystal   rotating in the three dimensional space[J]. Optik, 2019, 181(X):786–795.

[3]       Yongqiang Kang, Peng Gao, Hongmei Liu, Jing   Zhang. Large Tunable Lateral Shift from Guided Wave Surface Plasmon Resonance[J].   Plasmonics, 2019,  https://doi.org/10.1007/s11468-019-00918-9

[4]         Peng Gao, Xiaochen Hu, Yongqiang Kang, Qingying Chen,   Jingjing Ai, Xia Wang. Correction of the optical path difference on the   tempo-spatially mixed modulated polarization imaging interference   spectrometer. Optics Communications, 2019, 449 (2019) 33–38.

2018

[5]         Peng Gao, Xiaochen Hu, Guanghai Guo, Yongqiang Kang,   Jingjing Ai and Xia Wang. Modified Sagnac imaging spectropolarimeter for full   linear Stokes parameters[J]. EPL, 2018, 124: 54003.

[6]         Gao P, Hu XC, Guo GH, Wang YC, Ai JJ. Influence of the   optical axis   orientation of the   Glan-Taylor prism and the incident angle on the   extraordinary ray [J]. Journal of Physics:   Conf. Series, 2018, 1053: 012074.

[7]         Ai JJ,   Gao P, Kang YQ, Tong Cuncun. Extended   discussion of “Metamaterial   composed of different cells exhibiting a negative   refraction property   over multiple frequency bands”. Journal of Physics: Conf.   Series,   2018, 1053: 012086J.

[8]         Jingjing   Ai, Peng Gao#, Xiaochen Hu, Chunmin Zhang, Xia Wang#.   Analysis of the Sagnac interference imaging spectrometer with a variable   optical path difference[J]. Optics Communications, 2018, 410(35):232-239.

2017

[9]         Jingjing   Ai, Peng Gao#, Qingying Chen, and Shuaiyi Zhang. Image   quality and spectral performance evaluations of a polarization imaging   spectrometer based on a Savart polariscope[J]. Applied Optics,2017,   56(21):5933-5938.

[10]      Gao P#.   Research of the metamaterial on the Chinese map [J]. Proc. of SPIE,   Vol. 10256: 102560Q1-6.

[11]      Gao P, Ai JJ#, Wang X, Zhang CM. A novel   Sagnac imaging polarization spectrometer [J]. Optics Communications, 2017,   393(35):252-257.

[12]      Shuaiyi Zhang, Lei Guo, Mingqi   Fan, Fei Lou, Peng Gao, Hao Lv,   Xia Wang, Jianlong Yang, Tao Li, Kejian Yang, and Shengzhi Zhao. Passively   Q-Switched Er:LuAG Laser at 1.65 μm Using MoS2 and WS2 Saturable   Absorbers[J]. IEEE Photonics Journal, 2017, 9(3), 1502707.

2016

[13]      Gao P, Ai JJ#., Zhang CM.   Radiometric calibration of tempospatially modulated polarization interference   imaging spectrometer[J]. Applied Optics,   2016, 55(35):10016-10024.

[14]      Gao P#., Ai   JJ, Kang YQ and Zhang CM. Realization of the ultrawideband negative index   metamaterials by its multiple-band[J]. Journal of the Optical Society of   America B, 2016, 33(3): 474-478.

[15]      Gao P#., Ai   JJ, Zhang SY, Kang YQ and Zhang CM. Further discussion of “multiple frequency   bands of square split resonant rings and metal wires metamaterial”[J]. Optik,   2016, 127(3):1277–1280.

2015

[16]      Kang   YQ, Gao P, Liu HM, Zhang CM and Shi YL. Resonant modes in   photonic double quantum well structures with single-negative materials[J].   Acta Phys. Sin, 2015, 64, (6): 064207 1-5.

[17]      Kang   YQ, Gao P, Liu HM and Zhang. Reflection Band Gap in Thue-Morse   Quasicrystal Containing Anisotropic Left Handed Material[J]. Acta Photonica   Sinica, 2015, 3, (44) : 0309004 1-6.

[18]      Shuaiyi Zhang,   Yan Zhou, Peng Gao, Xia Wang, Weijin Kong,   Jianqiu Xu and Yubai Pan, Power scaling of Tm:YAG slab ceramic   laser, Laser Physics, 2015, 25: 055801.

2014

[19]      Gao P#., Zhang   CM, Ai JJ, Li G, Kang YQ. Metamaterial with negative refraction over wide   frequency band[J]. Materials Research Innovations,   2014, 18(5):346-350.

2013

[20]      Gao P#., Zhang   CM#., Ai JJ, Kang YQ, Li G. Multiple frequency   bands of square split resonant rings and metal wire metamaterial[J]. Applied   Optics, 2013, 52(25):6309-6315.

[21]      Gao P, Zhang CM#., Ai JJ,   Li G, Kang YQ. Measurement of negative refraction index from simulative   results and experimental data by a new metamaterial sample[J]. Physica A, 2013, 392 (24): 6506-6511.

[22]      Gao P#., Zhang#. CM, Zhang L,   Ai JJ, Kang YQ, Li G. Metamaterial composed of different cells exhibiting a   negative refraction property over multiple frequency bands[J]. Journal   of Modern Optics, 2013, 60 (11): 925-931.

[23]      Gao P#., Zhang   CM#.. Double-passband refraction of   metamaterials[J]. Optik, 2014, 124 (17):   3053-3055.

[24]      Gao P, Zhang CM#., Jia ZW,   Kang YQ, Li G. Multiple frequency bands of square split resonant rings and   metal wire metamaterial:erratum[J]. Applied Optics, 2013, 52(31):7523.

[25]      Ai JJ,   Zhang CM, Gao P, Jia CJ. Signal-to-noise ratio of the spatially modulated   imaging spectrometer based on modified Sagnac interferometer[J]. Optics Communications, 2013, 298-299: 46-53.

[26]      Ai JJ,   Zhang CM, Gao P. Optical Path Difference and Lateral Displacement of   Sagnac Lateral Shearing Interferometer[J]. Journal of Modern Optics, 2013, 60   (8): 646-658.

[27]      Kang   YQ, Zhang CM, Gao P and Ren WY. Electromagnetic resonance tunneling in   a single-negative sandwich structure[J]. Journal of Modern Optics, 2013, 60   (13): 1021-1026.

[28]      Ai JJ,   Zhang CM, Gao P, Jia CL. Modulation Transfer Function of Modified   Spatially Modulated Imaging Interferometer[J]. Journal of Modern Optics,   2013, 60(20):1750-1759.

[29]      Zhang   CM, Li G, Gao P. Study on the resonance properties of combinations   ofdifferent split ring resonator cells. Optik, 2013, 125(7): 1841-1845.

[30]      Ai JJ,   Zhang CM, Jia CJ, Gao P. Optical throughput of the tempo-spatially   modulated polarization interference imaging spectrometer [J]. Optik,   2013,124 (22):5751-5755.

2012

[31]      Gao P#., Zhang   CM. Resonant frequency of triangle split resonant rings[J]. Optical   Engineering, 2012, 51 (1): 018001 1-3.

[32]      Zhang   CM, Ai JJ, Gao P. Optical throughput of the Sagnac interferometer   with a modified large optical path difference[J]. Applied Optics, 2012, 51   (14): 2693-2700.

[33]      Kang   YQ, Zhang CM, Mu TK and Gao P. Resonant modes and   inter-well couplingin photonic double quantum well structures with   single-negative materials[J]. Optics Communications, 2012,   285:4821-4824.

2010

[34]      Zhang   CM, Gao P#., Sun MZ, Mu TK. Analysis of the resonant frequency of the   octagon split resonant rings with metal wires[J]. Applied Optics,   2010, 49(29):5638.

[35]      Zhang   CM, Yuan ZL, Sun MZ, Wu JF, Gao P. Miniature periodic structures of   left-handed materials[J]. Applied Optics, 2010, 49(3):281-285.

 

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