廖常锐

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廖常锐，博士，1984年出生于山东淄博，深圳大学光电工程学院副教授，特聘研究员，硕士生导师，广东省“特支计划”百千万工程青年拔尖人才，深圳市“孔雀计划”海外高层次B类人才，深圳大学“荔园优青”学者，广东省光纤传感技术粤港联合研究中心副主任，深圳市物联网光子器件与传感系统重点实验室副主任。2005年获华中科技大学光信息科学与技术学士学位，2007年获华中科技大学物理电子学硕士学位，2012年获香港理工大学哲学博士学位，2012年9月加入深圳大学光电工程学院王义平教授团队。研究方向：光纤传感、飞秒激光微纳加工、光微流、光波导。主持国家自然科学基金面上项目1项和青年基金1项、省市级项目5项，深圳市海外高层次人才启动项目1项，参与国家自然科学基金重点项目1项、广东省重大科技专项1项。截止2017年8月，发表SCI论文84篇（SCI他引1109次，H-index指数：21）。

地址：深圳大学主校区光电工程学院326室

电话：0755-26001649（转8003）

E-mail: cliao@szu.edu.cn

Researcher ID: http://www.researcherid.com/rid/D-6557-2016

1.    代表成果

[1] 2010年研制出首支微纳光纤布拉格光栅[Opt. Lett., 35, 1007, (2010)]，美国光学学会2012年评价该成果为近期光纤光学领域最新颖、最具影响力的工作之一。

[2] 2012年提出飞秒激光诱导-放电熔接技术[Optics Express, 20, 22813, 2012]，该成果入选Optics Express期刊（2012）热门下载论文。

[3] 2014年研制出高灵敏的双芯光纤M-Z干涉微流传感器[Opt. Lett., 39, 4982 (2014)]，该成果被美国光学学会Virtual Journal for Biomedical Optics全文转载报道。

[4] 2014年研制出具有亚微米石英薄膜的光纤F-P干涉压力传感器[Opt. Lett. 39, 2827 (2014)]，该成果入选Optics Letters期刊（2014 - 2016）Top 15 Highly Cited Optics Letters Articles。

[5] 2016年研制出选择性填充的光子晶体光纤温度/应变双参数传感器[Photon. Res. 5, 129 (2016)]，该成果入选（2017）Most Cited Papers from Photonics Research。

1.    讲授课程:

[1] 光纤传感技术（Optical fiber sensing technology）

[2] 光电测量学（Optical metrology）

[3] 奇妙的微全光纤实验室技术（Powerful Lab-in-fiber technology）

[4] 大学物理实验（college (level) physics experiment）

2.    邀请报告

[10] Liao CR, Fiber Mach-Zehnder interferometer for Bovine Serum Albumin sensing, Optofluidics 2017, Singapore

[9] Liao CR, Recent developments of fiber Bragg gratings induced by femtosecond laser, Photonics Asia 2016, Beijing, China

[8] Liao CR, Fiber Bragg Gratings Induced by femotosecond Laser and Sensing Applications, ACP 2016, Wuhan, China

[7] Liao CR, Optofluidic fiber sensors induced by femtosecond laser micromachining, Optofluidics 2016, Beijing, China

[6] Liao CR, Femtosecond laser micro- machining of microfluidic fiber sensors, ICOCN

2016, Hangzhou, China

[5] Liao CR, Recent development of Lab-on-fiber induced by femtosecond laser micro- machining, ONNA 2016, Hangzhou, China

[4] Liao CR, Fiber Bragg Gratings Fabricated by Femtosecond Laser Micro- machining Methods, APOS 2015, Jeju, Korea

[3] Liao CR, Femtosecond Laser Micro- machining Applications in Optical Fiber Sensors, OECC 2015, Shanghai, China

[2] Liao CR, Optical fiber devices fabricated by femtosecond laser micro- machining, OGC 2015, Shenzhen, China

[1] Liao CR, Femtosecond laser micro- machined optical fiber in-line interferometers, PIERS 2014, Guangzhou China

3.    SCI论文

2017

[84] Li, ZY; Liao, CR*; Chen, DN; Song, J; Jin, W; Peng, GD; Zhu, F; Wang, Y; He, J; Wang, YP*, “Label-free detection of bovine serum albumin based on an in-fiber Mach-Zehnder interferometric biosensor”, OPTICS EXPRESS, 25, 17105-17113, JUL 10 2017.

[83] Yin, GL; Tang, J; Liao, CR; He, J; Sun, B; Wang, GJ; Wang, YP*, “Determination of Optical Fiber Parameters Based On Fiber Gratings and a Search Procedure”, JOURNAL OF LIGHTWAVE TECHNOLOGY, 35, 3591-3596, AUG 15 2017.

[82] Deng, M; Xu, JS; Zhang, Z; Bai, ZY; Liu, S; Wang, Y; Zhang, Y; Liao, CR; Jin, W; Peng, GD; Wang, YP* “Long period fiber grating based on periodically screw-type distortions for torsion sensing”, OPTICS EXPRESS, 25, 14308-14316, JUN 26 2017.

[81] Bai, ZY†; Deng, M†; Liu, S; Zhang, Z; Xu, JS; Tang, J; Wang, Y; Liao, CR; Wang, YP* “Torsion Sensor with Rotation Direction Discrimination Based on a Pre-twisted In-Fiber Mach-Zehnder Interferometer”, IEEE PHOTONICS JOURNAL, 9, 103708, JUN 2017.

[80] Sun, B*; Wei, W; Liao, CR; Zhang, L; Zhang, ZX; Chen, MY; Wang, YP, “Automatic Arc Discharge-Induced Helical Long Period Fiber Gratings and Its Sensing Applications”, IEEE PHOTONICS TECHNOLOGY LETTERS, 29, 873-876, JUN 1 2017.

[79] Lin, CP; Liao, CR*; Wang, J; He, J; Wang, Y; Li, ZY; Yang, TH; Zhu, F; Yang, KM; Zhang, Z; Wang, YP*, “Fiber surface Bragg grating waveguide for refractive index measurements”, OPTICS LETTERS, 42, 1684-1687, MAY 1 2017.

[78] Liu, S; Wang, YP*; Liao, CR; Wang, Y; He, J; Fu, CL; Yang, KM; Bai, ZY; Zhang, F, “Nano silica diaphragm in-fiber cavity for gas pressure measurement”, SCIENTIFIC REPORTS, 7, 787,  APR 11 2017.

[77] Lin, CP†; Wang, Y†; Huang, YJ; Liao, CR*; Bai, ZY; Hou, MX; Li, ZY; Wang, YP, “Liquid modified photonic crystal fiber for simultaneous temperature and strain measurement”, PHOTONICS RESEARCH, 5, 129-133, APR 1 2017.

[76] Bai, ZY†; Li, MQ†; Zhao, J; Cao, SQ; Wang, Y; Liao, CR; Wang, YP*, “Influence of Side-Polished Fiber Surface Topography on Surface Plasmon Resonance Wavelengths and the Full Width at Half-Maximum”, IEEE PHOTONICS JOURNAL, 9, 4800513, APR 2017.

[75] Zhang, Z; Liao, CR*; Tang, J; Wang, Y; Bai, ZY; Li, ZY; Guo, KK; Deng, M; Cao, SQ; Wang, YP*, “Hollow-Core-Fiber-Based Interferometer for High-Temperature Measurements”, IEEE PHOTONICS JOURNAL, 9, 7101109, APR 2017.

2016

[74] Sun, B; Wei, W; Wang, C; Liao, CR; Xu, J; Wan, HD; Zhang, L; Zhang, ZX*; Wang, YP, “Solid Optical Fiber With Tunable Bandgaps Based on Curable Polymer Infiltrated Photonic Crystal Fiber”, JOURNAL OF LIGHTWAVE TECHNOLOGY, 34, 5616-5619, DEC 15 2016.

[73] Hou, MX; Zhu, F; Wang, Y*; Wang, YP*; Liao, CR; Liu, S; Lu, PX, “Antiresonant reflecting guidance mechanism in hollow-core fiber for gas pressure sensing”, OPTICS EXPRESS, 24, 27890-27898, NOV 28 2016.

[72] Li, ZY; Liao, CR*; Song, J; Wang, Y; Zhu, F; Wang, YP*, Dong, XP, “Ultrasensitive magnetic field sensor based on an in-fiber Mach-Zehnder interferometer with a magnetic fluid component”, PHOTONICS RESEARCH, 4, 197-201, OCT 1 2016.

[71] Zhao, J; Cao, SQ; Liao, CR; Wang, Y; Wang, GJ; Xu, XZ; Fu, CL; Xu, GW; Lian, JR; Wang, YP*, “Surface plasmon resonance refractive sensor based on silver-coated side-polished fiber”, SENSORS AND ACTUATORS B-CHEMICAL, 230, 206-211, JUL 2016.

[70] Sun, B; Zhang, ZX; Wei, W; Wang, C; Liao, CR; Zhang, L; Wang, YP, “Unique Temperature Dependence of Selectively Liquid-Crystal-Filled Photonic Crystal Fibers”, IEEE PHOTONICS TECHNOLOGY LETTERS, 28, 1282-1285, JUN 15 2016.

[69] Yin, GL; Tang, J; Liao, CR; Wang, YP*, “Automatic arc discharge technology for inscribing long period fiber gratings”, APPLIED OPTICS, 55, 3873-3878, MAY 10 2016.

[68] He, J; Wang, YP*; Liao, CR; Wang, C; Liu, S; Yang, KM; Wang, Y; Yuan, XC; Wang, GP; Zhang, WJ, “Negative-index gratings formed by femtosecond laser overexposure and thermal regeneration”, SCIENTIFIC REPORTS, 6, 23379, MAR 16 2016.

[67] Liao, CR; Wang, Q; Xu, L; Liu, S; He, J; Zhao, J; Li, ZY; Wang, YP*, “D-shaped fiber grating refractive index sensor induced by an ultrashort pulse laser”, APPLIED OPTICS, 55, 1525-1529, MAR 1 2016.

[66] Zhang, CZ; Yang, YH; Wang, C; Liao, CR*; Wang, YP*, “Femtosecond-laser-inscribed sampled fiber Bragg grating with ultrahigh thermal stability”, OPTICS EXPRESS, 24, 3981-3988, FEB 22 2016.

2015

[65] Fu, CL; Zhong, XY; Liao, CR*; Wang, YP*; Wang, Y; Tang, J; Liu, S; Wang, Q, “Thin-Core-Fiber-Based Long-Period Fiber Grating for High-Sensitivity Refractive Index Measurement”, IEEE PHOTONICS JOURNAL, 7, 7103208, DEC 2015.

[64] Tang, J; Yin, GL; Liao, CR; Liu, S; Li, ZY; Zhong, XY; Wang, Q; Zhao, J; Yang, KM; Wang, YP*, “High-Sensitivity Gas Pressure Sensor Based on Fabry-Perot Interferometer With a Side-Opened Channel in Hollow-Core Photonic Bandgap Fiber”, IEEE PHOTONICS JOURNAL, 7,  6803307, DEC 2015.

[63] Yang, KM; He, J; Wang, Y; Liu, S; Liao, CR; Li, ZY; Yin, GL; Sun, B; Wang, YP*, “Ultrasensitive Temperature Sensor Based on a Fiber Fabry-Perot Interferometer Created in a Mercury-Filled Silica Tube”, IEEE PHOTONICS JOURNAL, 7, 6803509, DEC 2015.

[62] Xu, XZ; Tang, J; Zhao, J; Yang, KM; Fu, CL; Wang, Q; Liu, S; Liao, CR; Lian, JR; Wang, YP*, “Post-Treatment Techniques for Enhancing Mode-Coupling in Long Period Fiber Gratings Induced by CO2 Laser”, Photonic Sensors, 5, 339-344, DEC 2015.

[61] Tang, J; Yin, GL; Liu, S; Zhong, XY; Liao, CR; Li, ZY; Wang, Q; Zhao, J; Yang, KM; Wang, YP, “Gas Pressure Sensor Based on CO2-Laser-Induced Long-Period Fiber Grating in Air-Core Photonic Bandgap Fiber”, IEEE PHOTONICS JOURNAL, 7, 6803107, OCT 2015.

[60] He, J; Liao, CR; Yang, KM; Liu, S; Yin, GL; Sun, B; Zhou, JT; Zhao, J; Wang, YP*, “High-Sensitivity Temperature Sensor Based on a Coated Single-Mode Fiber Loop”, JOURNAL OF LIGHTWAVE TECHNOLOGY, 33, 4019-4026, OCT 1 2015.

[59] Sun, B; Huang, YJ; Luo, D; Wang, C; He, J; Liao, CR; Yin, GL; Zhou, JT; Liu, S; Zhao, J; Wang, YP*, “Broadband Thermo-Optic Switching Effect Based on Liquid Crystal Infiltrated Photonic Crystal Fibers”, IEEE PHOTONICS JOURNAL, 7, 6802207, AUG 2015.

[58] Wang, GJ; Wang, C; Liu, S; Zhao, J; Liao, CR; Xu, XZ; Liang, HJ; Yin, GL; Wang, YP*, “Side-Opened Suspended Core Fiber-Based Surface Plasmon Resonance Sensor”,  IEEE SENSORS JOURNAL, 15, 4086-4092, JUL 2015.

[57] Xu, L; Hu, QH; Hung, E; Chen, BW; Tan, X; Liao, CR*, “Large margin clustering on uncertain data by considering probability distribution similarity”, NEUROCOMPUTING, 158, 81-89, JUN 22 2015.

[56] Sun, B; Huang, YJ; Liu, S; Wang, C; He, J; Liao, CR; Yin, GL; Zhao, J; Liu, YJ; Tang, J; Zhou, JT; Wang, YP*, “Asymmetrical in-fiber Mach-Zehnder interferometer for curvature measurement”, OPTICS EXPRESS, 23, 14596-14602, JUN 1 2015.

[55] Zhao, J; Yin, GL; Liao, CR; Liu, S; He, J; Sun, B; Wang, GJ; Xu, XZ; Wang, YP*, “Rough Side-Polished Fiber With Surface Scratches for Sensing Applications”, IEEE PHOTONICS JOURNAL, 7, 6801107, JUN 2015.

[54] He, J; Wang, YP*; Liao, CR; Wang, QN; Yang, KM; Sun, B; Yin, GL; Liu, S; Zhou, JT; Zhao, J, “Highly birefringent phase-shifted fiber Bragg gratings inscribed with femtosecond laser”, OPTICS LETTERS, 40, 2008-2011, MAY 1 2015.

[53] Zhong, XY; Wang, YP*; Liao, CR; Liu, S; Tang, J; Wang, Q, “Temperature-insensitivity gas pressure sensor based on inflated long period fiber grating inscribed in photonic crystal fiber”, OPTICS LETTERS, 40, 1791-1794, APR 15 2015.

[52] Talataisong, W; Wang, DN*; Chitaree, R; Liao, CR; Wang, C, “Fiber in-line Mach-Zehnder interferometer based on an inner air-cavity for high-pressure sensing”, OPTICS LETTERS, 40, 1220-1222, APR 1 2015.

[51] Li, ZY; Liao, CR; Wang, YP*; Xu, L; Wang, DN; Dong, XP; Liu, S; Wang, Q; Yang, KM; Zhou, JT, “Highly-sensitive gas pressure sensor using twin-core fiber based in-line Mach-Zehnder interferometer”, OPTICS EXPRESS, 23,  6673-6678, MAR 9 2015.

[50] Zhou, JT; Wang, YP*; Liao, CR; Sun, B; He, J; Yin, GL; Liu, S; Li, ZY; Wang, GJ; Zhong, XY; Zhao, J, “Intensity modulated refractive index sensor based on optical fiber Michelson interferometer”, SENSORS AND ACTUATORS B-CHEMICAL,  208,  315-319, MAR 1 2015.

[49] Yin, GL; Wang, YP*; Liao, CR; Sun, B; Liu, YJ; Liu, S; Wang, Q; Yang, KM; Tang, J; Zhong, XY, “Simultaneous Refractive Index and Temperature Measurement With LPFG and Liquid-Filled PCF”, IEEE PHOTONICS TECHNOLOGY LETTERS, 27, 375-378, FEB 15 2015.

[48] Sun, B; Wang, YP*; Qu, JL; Liao, CR; Yin, GL; He, J; Zhou, JT; Tang, J; Liu, S; Li, ZY; Liu, YJ, “Simultaneous measurement of pressure and temperature by employing Fabry-Perot interferometer based on pendant polymer droplet”, OPTICS EXPRESS, 23, 1906-1911, FEB 9 2015.

[47] Liu, S; Yang, KM; Wang, YP*; Qu, JL; Liao, CR; He, J; Li, ZY; Yin, GL; Sun, B; Zhou, JT; Wang, GJ; Tang, J; Zhao, J, “High-sensitivity strain sensor based on in-fiber rectangular air bubble”, SCIENTIFIC REPORTS, 5, 7624, JAN 5 2015.

[46] Sun, B; Wang, YP*; Liu, YJ; Liu, S; Liao, CR; Chen, MY, “Compact device employed a hybrid plasmonic waveguide for polarization-selective splitting”, OPTICS COMMUNICATIONS, 334, 240-246, JAN 1 2015.

2014

[45] Zhong, XY; Wang, YP*; Qu, JL; Liao, CR; Liu, S; Tang, J; Wang, Q; Zhao, J; Yang, KM; Li, ZY, “High-sensitivity strain sensor based on inflated long period fiber grating” OPTICS LETTERS, 39, 5463-5466, SEP 15 2014.

[44] Li, ZY†; Liao, CR†; Wang, YP*; Dong, XP; Liu, S; Yang, KM; Wang, Q; Zhou, JT, “Ultrasensitive refractive index sensor based on a Mach-Zehnder interferometer created in twin-core fiber”, OPTICS LETTERS, 39, 4982-4985, SEP 1 2014.

[43] Wang, C; Jin, W; Liao, CR; Ma, J; Jin, W*; Yang, F; Ho, HL; Wang, YP, “Highly birefringent suspended-core photonic microcells for refractive-index sensing”, APPLIED PHYSICS LETTERS, 105, 061105, AUG 11 2014.

[42] Zhong, XY; Wang, YP*; Liao, CR; Yin, GL; Zhou, JT; Wang, GJ; Sun, B; Tang, J, “Long Period Fiber Gratings Inscribed With an Improved Two-Dimensional Scanning Technique”, IEEE PHOTONICS JOURNAL, 6, 2201508, AUG 2014.

[41] Li, ZY; Wang, YP*; Liao, CR; Liu, S; Zhou, JT; Zhong, XY; Liu, YJ; Yang, KM; Wang, Q; Yin, GL, “Temperature-insensitive refractive index sensor based on in-fiber Michelson interferometer”, SENSORS AND ACTUATORS B-CHEMICAL,  199, 31-35, AUG 2014.

[40] Liao, CR; Chen, HF; Wang, DN*, “Ultracompact Optical Fiber Sensor for Refractive Index and High-Temperature Measurement”, JOURNAL OF LIGHTWAVE TECHNOLOGY, 32, 14, JUL 15 2014.

[39] Chen, T; Liao, CR; Wang, DN*; Wang, YP, “Polarization-locked vector solitons in a mode-locked fiber laser using polarization-sensitive few-layer graphene deposited D-shaped fiber saturable absorber”, JOURNAL OF THE OPTICAL SOCIETY OF AMERICA B-OPTICAL PHYSICS, 31, 1377-1382, JUN 2014.

[38] Liao, CR; Liu, S; Xu, L; Wang, C; Wang, YP; Li, ZY; Wang, Q; Wang, DN*, “Sub-micron silica diaphragm-based fiber-tip Fabry-Perot interferometer for pressure measurement”, OPTICS LETTERS, 39, 2827-2830, MAY 15 2014.

[37] Chen, T; Liao, CR; Wang, DN*; Wang, YP, “Passively mode-locked fiber laser by using monolayer chemical vapor deposition of graphene on D-shaped fiber”, APPLIED OPTICS, 53, 2828-2832, MAY 1 2014.

[36] Yin, GL; Wang, YP*; Liao, CR; Zhou, JT; Zhong, XY; Wang, GJ; Sun, B; He, J, “Long Period Fiber Gratings Inscribed by Periodically Tapering a Fiber”, IEEE PHOTONICS TECHNOLOGY LETTERS, 26, 698-701,  APR 1 2014.

[35] Liu, S; Wang, YP*; Liao, CR; Wang, GJ; Li, ZY; Wang, Q; Zhou, JT; Yang, KM; Zhong, XY; Zhao, J; Tang, J, “High-sensitivity strain sensor based on in-fiber improved Fabry-Perot interferometer”, OPTICS LETTERS, 39, 2121-2124, APR 1 2014.

[34] Liu, YJ; Wang, YP*; Sun, B; Liao, CR; Song, J; Yang, KM; Wang, GJ; Wang, Q; Yin, GL; Zhou, JT, “Compact tunable multibandpass filters based on liquid-filled photonic crystal fibers”,  OPTICS LETTERS, 39, 2148-2151, APR 1 2014.

[33] Zhou, JT; Wang, YP*; Liao, CR; Yin, GL; Xu, X; Yang, KM; Zhong, XY; Wang, Q; Li, ZY, “Intensity-Modulated Strain Sensor Based on Fiber In-Line Mach-Zehnder Interferometer”, IEEE PHOTONICS TECHNOLOGY LETTERS, 26, 508-511, MAR 1 2014.

[32] Zhou, JT; Liao, CR; Wang, YP*; Yin, GL; Zhong, XY; Yang, KM; Sun, B; Wang, GJ; Li, ZY, “Simultaneous measurement of strain and temperature by employing fiber Mach-Zehnder interferometer”, OPTICS EXPRESS, 22, 1680-1686, JAN 27 2014.

2013

[31] Liao, CR; Xu, L; Wang, C; Wang, DN; Wang, YP*; Wang, Q; Yang, KM; Li, ZY; Zhong, XY; Zhou, JT; Liu, YJ, “Tunable phase-shifted fiber Bragg grating based on femtosecond laser fabricated in-grating bubble”, OPTICS LETTERS, 38, 4473-4476, NOV 1 2013.

[30] Wang, M; Yang, MH; Cheng, J; Zhang, GL; Liao, CR; Wang, DN, “Fabry-Perot Interferometer Sensor Fabricated by Femtosecond Laser for Hydrogen Sensing”, IEEE PHOTONICS TECHNOLOGY LETTERS, 25, 713-716, APR 15 2013.

[29] Liao, CR; Wang, DN*; Wang, Y, “Microfiber in-line Mach-Zehnder interferometer for strain sensing”, OPTICS LETTERS, 38, 757-759, MAR 1 2013.

[28] Wang, Y; Wang, DN*; Liao, CR; Hu, TY; Guo, JT; Wei, HF, “Temperature-insensitive refractive index sensing by use of micro Fabry-Perot cavity based on simplified hollow-core photonic crystal fiber”, OPTICS LETTERS, 38. 269-271, FEB 1 2013.

2012

[27] Hu, TY; Wang, Y; Liao, CR; Wang, DN*, “Miniaturized fiber in-line Mach-Zehnder interferometer based on inner air cavity for high-temperature sensing”, OPTICS LETTERS, 37, 5082-5084, DEC 15 2012.

[26] Liao, CR; Wang, DN*; Wang, M; Yang, MH, “Fiber In-Line Michelson Interferometer Tip Sensor Fabricated by Femtosecond Laser”, IEEE PHOTONICS TECHNOLOGY LETTERS, 24, 2060-2063, NOV 15 2012.

[25] Wang, Y; Liao, CR; Wang, DN*, “Embedded coupler based on selectively infiltrated photonic crystal fiber for strain measurement”, OPTICS LETTERS, 37, 4747-4749, NOV 15 2012.

[24] Liao, CR; Hu, TY; Wang, DN*, “Optical fiber Fabry-Perot interferometer cavity fabricated by femtosecond laser micromachining and fusion splicing for refractive index sensing”, OPTICS EXPRESS, 20, 22813-22818, SEP 24 2012.

[23] He, XY; Liu, ZB; Wang, DN*; Yang, MW; Liao, CR; Zhao, X, “Passively Mode-Locked Fiber Laser Based on Reduced Graphene Oxide on Microfiber for Ultra-Wide-Band Doublet Pulse Generation”, JOURNAL OF LIGHTWAVE TECHNOLOGY, 30, 984-989, APR 1 2012.

2011

[22] Wang, Y; Wang, DN*; Yang, MW; Liao, CR, “Asymmetric microhole-structured long-period fiber gratings”, SENSORS AND ACTUATORS B-CHEMICAL, 160, 822-825, DEC 15 2011.

[21] Wang, Y; Yang, MW; Wang, DN*; Liao, CR, “Selectively Infiltrated Photonic Crystal Fiber With Ultrahigh Temperature Sensitivity”, IEEE PHOTONICS TECHNOLOGY LETTERS, 23, 20, OCT 15 2011.

[20] Yang, MW; Wang, DN*; Liao, CR, “Fiber Bragg Grating With Micro-Holes for Simultaneous and Independent Refractive Index and Temperature Sensing”, IEEE PHOTONICS TECHNOLOGY LETTERS, 23, 20, OCT 15 2011.

[19] Liao, CR; Wang, DN*; He, XY; Yang, MW, “Twisted Optical Microfibers for Refractive Index Sensing”,  IEEE PHOTONICS TECHNOLOGY LETTERS, 23, 848-850, JUL 1 2011.

[18] Li, YH; Yang, MW; Liao, CR; Wang, DN*; Lu, J; Lu, PX, “Prestressed Fiber Bragg Grating With High Temperature Stability”, JOURNAL OF LIGHTWAVE TECHNOLOGY, 29, 1555-1559, MAY 15 2011.

[17] He, XY; Wang, DN*; Liao, CR, “Tunable and Switchable Dual-Wavelength Single-Longitudinal-Mode Erbium-Doped Fiber Lasers”, JOURNAL OF LIGHTWAVE TECHNOLOGY, 29, 842-849, MAR 15 2011.

[16] Yang, M; Wang, DN*; Wang, Y; Liao, CR, “Fiber in-line Mach-Zehnder interferometer constructed by selective infiltration of two air holes in photonic crystal fiber”, OPTICS LETTERS, 36, 636-638, MAR 1 2011.

2010

[15] Liao, CR; Wang, Y; Wang, DN*; Yang, MW, “Fiber In-Line Mach-Zehnder Interferometer Embedded in FBG for Simultaneous Refractive Index and Temperature Measurement”, IEEE PHOTONICS TECHNOLOGY LETTERS, 22, 1686-1688, NOV 15 2010.

[14] Liao, CR; Li, YH; Wang, DN*; Sun, T; Grattan, KTV, “Morphology and Thermal Stability of Fiber Bragg Gratings for Sensor Applications Written in H-2-Free and H-2-Loaded Fibers by Femtosecond Laser”, IEEE SENSORS JOURNAL, 10, 1675-1681, NOV 2010.

[13] Wang, Y; Liao, CR; Wang, DN*, “Femtosecond laser-assisted selective infiltration of microstructured optical fibers”, OPTICS EXPRESS, 18, 18056-18060, AUG 16 2010.

[12] Fang, X; Liao, CR; Wang, DN*, “Femtosecond laser fabricated fiber Bragg grating in microfiber for refractive index sensing”, OPTICS LETTERS, 35, 1007-1009, APR 1 2010.

[11] Liao, CR; Wang, Y; Wang, DN*; Jin, L, “Femtosecond Laser Inscribed Long-Period Gratings in All-Solid Photonic Bandgap Fibers”, IEEE PHOTONICS TECHNOLOGY LETTERS, 22, 425-427, MAR 15 2010.

[10] Liu, SJ; Jin, L; Jin, W*; Wang, DN; Liao, CR; Wang, Y, “Structural long period gratings made by drilling micro-holes in photonic crystal fibers with a femtosecond infrared laser”, OPTICS EXPRESS, 18, 5496-5503, MAR 15 2010.

[9] Yang, MW; Wang, DN*; Wang, Y; Liao, CR, “Long period fiber grating formed by periodically structured microholes in all-solid photonic bandgap fiber”, OPTICS EXPRESS, 18, 2183-2189, FEB 1 2010.

[8] Fang, X; He, XY; Liao, CR; Yang, MW; Wang, DN*; Wang, Y, “A new method for sampled fiber Bragg grating fabrication by use of both femtosecond laser and CO2 laser”, OPTICS EXPRESS, 18, 2646-2654, FEB 1 2010.

[7] Wang, Y; Li, YH; Liao, CR; Wang, DN*; Yang, MW; Lu, PX, “High-Temperature Sensing Using Miniaturized Fiber In-Line MachZehnder Interferometer”, IEEE PHOTONICS TECHNOLOGY LETTERS, 22, 39-41, JAN 1 2010.

2007 - 2009

[6] He, XY; Fang, X; Liao, CR; Wang, DN*; Sun, JQ, “A tunable and switchable single-longitudinal-mode dual-wavelength fiber laser with a simple linear cavity”, OPTICS EXPRESS, 17, 21773-21781, NOV 23 2009.

[5] Liao, CR; Wang, DN*; Li, YH; Sun, T; Grattan, KTV, “Temporal thermal response of Type II-IR fiber Bragg gratings”, APPLIED OPTICS, 48, 3001-3007, JUN 1 2009.

[4] Li, YH; Liao, CR; Wang, DN*; Sun, T; Grattan, KTV, “Study of spectral and annealing properties of fiber Bragg gratings written in H-2-free and H-2-loaded fibers by use of femtosecond laser pulses”, OPTICS EXPRESS, 16, 21239-21247, DEC 22 2008.

[3] Wang, XL; Lu, PX*; Dai, NL; Li, YH; Liao, CR; Chang, YX; Yang, G; Zheng, QG, “Morphology and oxidation of Zr-based amorphous alloy ablated by femtosecond laser pulses”, APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING, 89, 547-552, NOV 2007.

[2] Wang, XL; Lu, PX*; Dai, NL; Li, YH; Liao, CR; Zheng, QG; Liu, L, “Noncrystalline micromachining of amorphous alloys using femtosecond laser pulses”, MATERIALS LETTERS, 61, 4290-4293, AUG 2007.

[1] Wang, XL; Lu, PX*; Dai, NL; Liao, CR; Wang, Y; Zheng, QG; Guo, XP; Zhang, Q, “Femtosecond laser direct fabrication of metallic microcantilevers for a micro-corrosion-fatigue test”, JOURNAL OF MICROMECHANICS AND MICROENGINEERING, 17, 1307-1313, JUL 2007.

4.    发明专利

[1] 美国专利, “Fiber Bragg grating in micro/nanofiber and method of producing the same”，D. N. Wang, F. Xia, C. R. Liao, The Hong Kong Polytechnic University, US9335468 B2, Date: 2016.5.10

[2] 美国专利, “Microfiber device with enclosed inner cavity”, D. N. Wang, C. R. Liao, The Hong Kong Polytechnic University, Pub. No. US20140363118A1, Pub. Date: 2014.12.11

[3] 中国发明专利，“基于光子晶体光纤的膨胀型长周期光纤光栅及其制作方法”，王义平，钟晓勇，廖常锐，刘申，深圳大学。专利号：ZL201410173103.8，授权日：2017.02.01

[4] 中国发明专利，“可调FP腔的FP干涉仪的制作方法”，王义平，刘申，廖常锐，深圳大学。专利号：ZL201410127074.1，授权日：2016.10.05

[5] 中国发明专利，“一种光纤生长氧化锌纳米线及其制备方法和装载模具”，王义平，徐锡镇，廖常锐，深圳大学。专利号：ZL201510376577.7，授权日：2016.09.21

[6] 中国发明专利，“基于光纤FP干涉仪的压力传感器及其制作方法”，王义平，廖常锐，刘申，深圳大学。专利号：ZL20140173102.3，授权日：2016.01.25

[7] 中国发明专利, “飞秒激光对非晶合金的无晶化加工方法”，陆培祥，王新林，廖常锐，戴能利，华中科技大学。专利号：ZL200610125079.6，授权日：2009.4.8

[8] 中国发明专利, “不锈钢悬臂梁的飞秒激光加工方法”，陆培祥，王新林，戴能利，廖常锐，华中科技大学。专利号：ZL200610125373.7，授权日：2008.12.31