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黃旭光,,教授/博士生導(dǎo)師。從事新型微納集成與二維材料光子學(xué),、光纖傳感與光電物聯(lián)網(wǎng)技術(shù)、相干光通信與ROF關(guān)鍵技術(shù)研究,。在Laser & Photonics Review(1區(qū)IF9.313),、Nanoscale(1區(qū)IF7.394)、Scientific Report(Nature子刊IF5.078),、Nanotechnology,、Applied Physics Letters, Optics Letters、Optics Express和J. Lightwave Technology等SCI收錄的國際和國內(nèi)學(xué)術(shù)雜志上發(fā)表100余篇論文,??傄么螖?shù)超過千次,其中在Optics Letters發(fā)表的一篇論文被引用200余次,。具有長期科學(xué)研究和高科技開發(fā)的學(xué)術(shù)界和工業(yè)界兩方面經(jīng)驗,。擔(dān)任多個國際和國內(nèi)重要學(xué)術(shù)雜志審稿人。
? 1979年—1983年,,中山大學(xué)物理系本科,,學(xué)士
? 1986年—1992年,中山大學(xué)超快激光光譜學(xué)技術(shù)國家重點實驗室碩博連讀,,理學(xué)博士
? 1983年–1986年,,中山大學(xué)物理系,助教
? 1992年–1996年,,中山大學(xué)超快激光光譜技術(shù)國家重點實驗室,,講師,、副教授
? 1996年–2003年,美國兩所大學(xué)博士后 ,、高科技公司高級工程師
? 2011/02–2011/03, 新加坡南洋理工大學(xué)電機與電子工程學(xué)院,,訪問科學(xué)家
?2012/02–2012/03,新加坡國立大學(xué)工程學(xué)院電子工程系,,訪問科學(xué)家
? 2004年–現(xiàn)在,,華南師范大學(xué),信息光電子科技學(xué)院,,教授/博士生導(dǎo)師
新型微納集成與二維材料光子學(xué)研究方向:
1. 新型表面等離極化子納米濾波器及傳感等成果在OL,、OE等雜志發(fā)表一系列30余篇。其中OL的文章引用超過200次,,被評為OL雜志7年內(nèi)15篇最高引用文章的第6篇,。
2. 納米自旋-渦旋光互作用集成波導(dǎo)的研究成果發(fā)表在1區(qū)的Nanoscale和OL雜志上。
3. 首次在國際上提出了石墨烯可調(diào)光波導(dǎo)及其在高速調(diào)制等應(yīng)用,,成果發(fā)表在 Laser & Photonics Review(影響因子 9.313),。
4. 首次提出了新型石墨烯可調(diào)光子晶體及其器件研究,成果發(fā)表在 Nanoscale(影響因子 7.394),。
5. 新型寬帶偏振分束器的研究,,實現(xiàn)了最小的低損偏振器件。在Nature子刊Scientific Reports發(fā)表(IF 5.078),。
6. 金屬-類光子晶體及其濾波和光開關(guān)器件研究取得進(jìn)展,,在發(fā)表了多篇SCI收錄的論文。
光纖傳感及物聯(lián)網(wǎng)技術(shù)研究方向:
7. 首次提出高精度光纖折射率傳感技術(shù),、基于波分復(fù)用-菲涅耳反射的光纖折射率與溫度傳感器,,發(fā)表在傳感頂級雜志 Sensor & Actua.B(1區(qū))和應(yīng)用物理頂級雜志APL。
8. 首次基于納米磁流體實現(xiàn)磁場測量,;產(chǎn)學(xué)研合作研制了分布式光纖拉曼溫度傳感系統(tǒng),;與清華、中鐵研制多路多探頭的光纖光柵傳感系統(tǒng)用于成渝高鐵橋梁應(yīng)用示范,。
9. 開展了多種傳感應(yīng)用研究,,包括濃度,溫度傳感度,,酸堿度,,磁場傳感等。
10. 以新型特種功能光纖為傳感核心,,解決光纖傳感及物聯(lián)網(wǎng)相關(guān)的關(guān)鍵科技問題,,探討基于特種功能光纖的新型傳感技術(shù)和傳感物聯(lián)網(wǎng)絡(luò)結(jié)構(gòu)。
授權(quán)的發(fā)明專利:
1. 黃旭光,;謝金玲,,《一種光纖無線通信系統(tǒng)》,,授權(quán)公告號:CN101714899B,授權(quán)公告日:2013.07.17,;
2. 黃旭光;?陳基煥,,《并行多點式光纖溫度檢測方法及傳感器》,授權(quán)公告號:CN101762342B,,授權(quán)公告日:2011.07.27,;
3. 黃旭光;?鄔怡婷;?蘇輝《準(zhǔn)分布式光纖濃度傳感器》,授權(quán)公告號:CN100541175,,授權(quán)公告日:2009.09.16,;
4. 蒙紅云;黃旭光,,《光纖布拉格光柵折射率傳感器》,,授權(quán)公告號:CN101929955A,授權(quán)公告日:2012.07.18,;
5. 蒙紅云;?沈維;?黃旭光,,《基于馬赫-曾德干涉儀的可調(diào)諧平頂多信道光纖濾波器》,授權(quán)公告號:CN102062902B,,授權(quán)公告日:2012.11.21,;
6. 蒙紅云; 武曉衛(wèi);?沈維;?黃旭光,《基于邁克爾遜干涉儀的光纖折射率傳感器及其測量方法》,,授權(quán)公告號:CN102419313B,,授權(quán)公告日:2014.07.02;
7. 蒙紅云; 薛紅超;?王偉;?譚春華;?黃旭光,,《基于多模干涉的光纖折射率與溫度傳感器及其測量方法》,授權(quán)公告號:CN103364105B,,授權(quán)公告日:2015.03.25,;
公布的發(fā)明專利:
8. 黃旭光;?蘇偉衡;靳小平,;陳鑾雄,,《基于表面等離激元的波導(dǎo)磁場/電流傳感器及其裝置》,申請公布號:CN105022004A, 申請公布日:2015.11.04, 申請?zhí)枺?015103981954.
9. 黃旭光;?朱家胡;?陶金,,《一種光纖無線傳輸系統(tǒng)》,,申請公布號:CN103701530A,申請公布日:2014.04.02,;
10. 黃旭光;?朱家胡;?陶金,,《一種表面等離激元光波導(dǎo)濾波器》,申請公布號:CN103605189A,,申請公布日:2014.02.26,。
11. 黃旭光;徐偉;鐘澤檳《基于光纖和無線傳輸?shù)膫鞲斜O(jiān)測系統(tǒng)》CN103148890A,,2013.06.12;
12. 蒙紅云;姚琦琦;王偉;譚春華;黃旭光《一種光纖折射率和溫度傳感器及其測量方法》 CN103323058A,,2013.09.25,;
13. 武曉衛(wèi);沈維;王威;黃旭光《雙通馬赫-曾德干涉儀型偏振無關(guān)平頂梳狀光纖濾波器》CN102608705A,2012.07.25,;
14. 蒙紅云;武曉衛(wèi);沈維;黃旭光《基于邁克爾遜干涉儀的光纖折射率傳感器》,,CN102419313A,2012.04.18,。
[1] Zan Hui Chen, Qi Long Tan, Jieer Lao, Yao Liang and Xu Guang Huang,,“Reconfigurable and tunable flat graphene photonic crystal circuits”,Nanoscale, 7, 10912–10917 (2015). (SCI一區(qū),,影響因子7.394)
[2] Jieer Lao, Jin Tao, Qi Jie Wang, and Xu Guang Huang, “Tunable graphene-based plasmonic waveguides nano modulators and attenuators”, Laser & Photonics Reviews 8, No. 4, 569–574 (2014). (SCI一區(qū),,影響因子 9.313)
[3] Qilong Tan, X.G. Huang, “A Plasmonic based Ultracompact Polarization Beam Splitter on Silicon-on-Insulator Waveguides”, Scientific Reports 3, 2206(2013)(SCI 5.078,Nature子刊)
[4] Wen Zhou, X.G. Huang, “Long-range air-hole assisted subwavelength waveguides”, Nanotechnology, 24,,235203 (2013), ( SCI 一區(qū) 3.842)
[5] Wen Zhou, X.G. Huang, “Compact filters and demultiplexers based on long-range air-hole assisted subwavelength waveguides”, OPTICS EXPRESS, 21(23),,28456-28468 (2013) (SCI 二區(qū) 3.546)
[6] Wen Zhou, Xu Guang Huang, Qilong Tan, Yao Liang, Jieer Lao and Zanhui Chen, “Coherent-interference-induced transparency based on long-range air-hole assisted subwavelength waveguides”, J. Phys. D: Appl. Phys. 47 (2014) 475101
[7] “Ultra-compact electro-optical switches based on long-range air-hole assisted subwavelength waveguides”, J. Opt. Society Amer. B, 32(8), 1699-1704 / August (2015) (SCI三區(qū),影響因子1.97).
[8] Yao Liang, Han Wen Wu, Bin Jie Huang and Xu Guang Huang, “Light beams with selective angular momentum generated by hybrid plasmonic waveguides”, Nanoscale 6(21): 12360-5 (2014). (SCI一區(qū),,影響因子6.739)
[9] Yao Liang and Xuguang Huang, “Generation of two beams of light carrying spin and orbital angular momenta of opposite handedness”, OPTICS LETTERS 39(17), 5074-5077 (2014)
[10] Xian-Shi Lin and Xu-Guang Huang*, "Tooth-shaped plasmonic waveguide filters with nanometeric sizes," Opt. Lett. 33, 2874-2876 (2008)(SCI)Selected for the January 5, 2009 issue of Virtual Journal of Nanoscale Science & Technology, 19(1)
[11] Wen Zhou, X.G. Huang, “Compact filters and demultiplexers based on long-range air-hole assisted subwavelength waveguides”, OPTICS EXPRESS, 21(23),,28456-28468 (2013) (SCI 二區(qū) 3.546)
[12] Jin Tao, Xu Guang Huang, and Jia Hu Zhu, “A wavelength demultiplexing structure based on metal-dielectric-metal plasmonic nano-capillary resonators”, Optics Express, 18 (11), 11111-11116 (2010).
[13] Qin Zhang, Xu-Guang Huang, Xian-Shi Lin, Jin Tao, and Xiao-Ping Jin,“A subwavelength coupler-type MIM?optical filter”, Optics Express 17(9), 7549-7555 (2009).
[14] Jin Tao, Xu Guang Huang*, Xianshi Lin, Qin Zhang, Xiaopin Jin, “A narrow-band subwavelength plasmonic waveguide filter with asymmetrical multipleteeth-shaped structure”, Optics Express 17(16),,13989-13994 (2009).
[15] Jia Hu Zhu, Xu Guang Huang and Xian Mei, “A Laser Structure Based on Metal-Dielectric-Metal Plasmonic Nanocavity”, Plasmonics: 7(1) (2012), 93-98.
[16] Xian Mei, Xu Guang Huang, Tao Jin, “A Sub-wavelength Electro-optic Switch Based on Plasmonic T-Shaped Waveguide”, Plasmonics, 6(4), 613-618 (2011).
[17] Jia Hu Zhu, Xu Guang Huang, Xian Mei, “Plasmonic Electro-Optical Switches Operating at Telecom Wavelengths”, Plasmonics, 6(3), 605-612 (2011).
[18] Hui Su, Xu Guang Huang*, “Fresnel Reflection based Fiber Optic Sensor for On-line Measurement of Solute Concentration in Solutions”,,Sensors and Actuators: B,126:2 579–582 (2007)(SCI,,2.6)
[19] Yi Ting Wu, Xu Guang Huang*, and Hui Su,,“A quasidistributed fiber optic sensor for solute concentration measurement based on Fresnel reflection”,Appl. Phys. Lett. 91 (13), 131101-1--131101-3 (2007),,(SCI)
[20] Xu Guang Huang*, Yi Ting Wu, Hao Yang and Yi Kun Xiong, “A quasi-distributed fiber- optic temperature sensor with a resolution of 0.07 centigrade based on Fresnel reflection”, J. Lightwave Technology, 27(14), 2583-2586 (2009).
[21] ia-Rong Zhao, Xu-Guang Huang, Wei-Xin He and Ji-Huan Chen, “High-resolution & temperature-insensitive fiber optic refractive index sensor based on Fresnel reflection modulated by Fabry-Perot interference”, J. Lightwave Technol. 28 (19), 2799-2803(2010).
[22] Ji-Huan Chen, Jia-Rong Zhao, Xu-Guang Huang, et al “Extrinsic fiber-optic Fabry-Perot interferometer sensor for refractive index measurement of optical glass” Applied Optics 49 (29), 5592-5596(2010)
[23] Jia Rong Zhao, Xu Guang Huang*,,“A Fresnel-reflection-based fiber sensor for simultaneous measurement of liquid concentration and temperature,” J. Applied Physics, 106(8), pp. 083103-083103-5(2009).
[24] Hui Su, Xu Guang Huang*, “A Novel Fiber Bragg Grating Interrogating Sensor System Based on AWG Demultiplexing”,Optics Communication,,275,,196–200 (2007)(SCI)
[25] Jihuan Chen and Xuguang Huang, “Fresnel-reflection-based fiber sensor for on-line measurement of ambient temperature”, Optics Communications 283 (9), 1674-1677(2010)
[26] Ji-Huan Chen, Xu-Guang Huang, et al “Fabry-Perot interference-based fiber-optic sensor for small displacement measurement”, Optics Communications 283 (17), 3315-3319(2010)
[27] Rong Ping Hu, Xu Guang Huang*,“A Simple Fiber Optic Flowmeter based on Bending Loss,” IEEE Sensors Journal, 9(12) (2009).
[28] Chun Hua Tan, Xu Guang Huang*,,Yu Ping Shi,,“In situ measurements of the solubilities of salt–water systems by a ?ber sensor”, Review of Scientific Instruments, 80, 034103 (2009)
[29] Jingtang Huang, Xuguang Huang* and Huawei Zhao,"Cost-effective and high-resolution wavelength interrogation unit using an incomplete asymmetric arrayed waveguide grating",, Journal of Modern Optics,,55(18), 2981–2988 (2008). (SCI)
[30] 86. HUANG Jing-Tang, HUANG Xu-Guang*, ZHAO Hua-Wei,"A Distributed Fibre Bragg Grating Sensor Interrogator Employing a Reformative Arrayed Waveguide Grating",Chin. Phys. Lett. 25(4), 1329 (2008) (SCI)
[31] Luan Xiong Chen, Xu Guang Huang*, Jia Hu Zhu, Guang Can Li, and Sheng Lan, "Fiber magnetic-field sensor based on nanoparticle magnetic fluid and Fresnel reflection," Opt. Lett. 36, 2761-2763 (2011).
[32] Xiao-Ping Jin, Xu-Guang Huang*, Jin Tao, et al., "A novel nanometeric plasmonic refractive index sensor," IEEE Transactions on Nanotechnology 9 (2), 134–137(2010).
微納光子學(xué) , 光纖通信與傳感
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