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 2018


2018


[1].  Shi Li, Yu Yin, Elfed Lewis, Gerald Farrell, and Pengfei Wang*, “A twelve-wavelength Thulium-doped fibre laser based on a microfibre coil resonator incorporating black phosphorus,” Optics Communications, accepted for publication.


[2].  Ke Tian, Meng Zhang, Gerald Farrell, Ruoning Wang, Elfed Lewis, and Pengfei Wang*, “A highly sensitive strain sensor based on composite interference established within an S-tapered multimode fibre structure,” Optics Express, vol. 26, no. 26, pp. 33982-33992, 2018.

 

[3].  Ke Tian, Gerald Farrell, Xianfan Wang, Elfed Lewis, and Pengfei Wang*, “Highly sensitive displacement sensor based on composite interference established within a balloon-shaped bent multimode fibre structure,” Applied Optics, vol. 57, no. 32, pp. 9962-9968, 2018.

 

[4].  Shi Li, Yating Yi, Yu Yin, Yuxuan Jiang, Haiyan Zhao, Yanqiu Du, Yujin Chen, Elfed Lewis, Gerald Farrell, Sulaiman Wadi Harun, and Pengfei Wang*, “A microfiber knot incorporating a tungsten disulfide saturable absorber based multi-wavelength mode-locked erbium-doped fiber laser,” Journal of Lightwave Technology, vol. 36, no. 23, pp. 5633-5639, 2018.


[5]. Ke Tian, Gerald Farrell, Xianfan Wang, Yifan Xin, Yanqiu Du, Wenlei Yang, Haidong Liang, Elfed Lewis, and Pengfei Wang*, “Investigation of a novel SMS fibre based planar multimode waveguide and its sensing performance,” Sensors and Actuators A: Physical, vol. 284, pp. 28-34, 2018.


[6]. Huan Liu, Yaxian Fan, Lin Li, Hongge Chen, Pengfei Wang, and Zhiyong Tao, “Self-adaptive terahertz spectroscopy from atmospheric vapor based on Hilbert-Huang transform,” Optics Express, vol. 26, no.21, 27279-27293, 2018.


[7]. Xianfan Wang, Jiquan Zhang, Ke Tian, Shunbin Wang, Libo Yuan, Elfed Lewis, Gerald Farrell, and Pengfei Wang*, “Investigation of a novel SMS fibre based planar multimode waveguide and its sensing performance,” Optics Express, accepted for publication.


[8]. Xin Wang, Yushi Chu, Zhiyong Yang, Ke Tian, Wenhao Li, Shunbin Wang, Shijie Jia, Gerald Farrell, Gilberto Brambilla and Pengfei Wang*, “Broadband multicolor upconversion from Yb3+-Mn2+ codoped fluorosilicate glasses and transparent glass ceramics,” Optics Letters, accepted for publication. 


[9]. Ke Tian, Gerald Farrell, Wenlei Yang, Xianfan Wang, Elfed Lewis, and Pengfei Wang*, “Simultaneous Measurement of Displacement and Temperature Based on Balloon-Shaped Bent SMF Structure Incorporating an LPG,” Journal of Lightwave Technology, vol. 36, no. 20, pp. 4960-4966, 2018. 


[10]. Xin Wang, Yongze Yu, Shunbin Wang, Jonathan M.Ward, Síle Nic Chormaic, and Pengfei Wang*, “Singlemode Green Lasing and Multicolor Luminescent Emission from an Er3+-Yb3+ Co-doped Compound Fluorosilicate Glass Microsphere Resonator,” OSA Continuum, accepted for publication.


[11]. Yu Yin, Jibo Yu, Yuxuan Jiang, Shi Li, Gerald Farrell, Elfed Lewis, and Pengfei Wang*, “Investigation of temperature dependence of microfibre coil resonators,” Journal of Lightwave Technology, Journal of Lightwave Technology, vol. 36, no. 20, pp. 4887-4893, 2018.


[12]. Angzhen Li, Jiquan Zhang, Meng Zhang, Wenhao Li, Shunbin Wang, Elfed Lewis, Gilberto Brambilla, and Pengfei Wang*, “Effect of Tm3+ concentration on the emission wavelength shift in Tm3+-doped silica microsphere lasers,” Optics Letters, vol. 43, no.18, pp. 4325-4328, 2018.  


[13]. Angzhen Li, Jibo Yu, Meng Zhang, Xiaosong Lu, Jiquan Zhang, Elfed Lewis, Gerald Farrell, and Pengfei Wang*, “An Yb3+-Ho3+ Codoped Glass Microsphere Laser in the 2.0 µm Wavelength Regions,” IEEE Photonics Technology Letters, Vol. 30, No. 17, pp. 1543-1546, 2018.


[14].Jibo Yu, Elfed Lewis, Gilberto Brambilla, Pengfei Wang*, “Temperature sensing performance of microsphere resonators,” Sensors, Vol. 18, pp. 2515, 2018. 


[15]. Jibo Yu, Elfed Lewis, Gerald Farrell, Pengfei Wang*, “Compound glass microsphere resonator devices,” Micromachines, Vol. 9, pp. 356, 2018. 


[16].Meng Zhang,Wenlei Yang, Ke Tian, Jibo Yu, Angzhen Li, Shunbin Wang, Elfed Lewis, Gerald Farrell, Libo Yuan, and Pengfei Wang*, “An in-fibre whispering-gallery modes microsphere resonator based integrated device,” Optics Letters, Vol. 43, No. 16, pp. 3961-3964, 2018. 


[17]. J. Yang, M. Yang, C. Y. Guan, J. H. Shi, Z. Zhu, P. Li, P. Wang, J. Yang, and L. B. Yuan, “In-fiber Mach-Zehnder interferometer with piecewise interference spectrum based on hole-assisted dual-core fiber for refractive index sensing,” Opt. Express, Vol. 26, No.15, pp. 19091-19099, 2018.


[18]. A. H. H. Al-Masoodi⁠, I. A. M. Alani⁠, M. H. M. Ahmed, Ab. H. H. Al-Masoodi, Ahmed. A. Alani⁠, P. Wang⁠, S. W. Harun, “Cobalt oxide nanocubes thin film as saturable absorber for generating Q-switched fiber lasers at 1 and 1.5 µm in ring cavity configuration,” Optical Fiber Technology, Vol. 45, pp. 128-136, 2018.


[19].K. Tian, G. Farrell, E. Lewis, X. Wang, H. Liang and P. Wang*, “A High sensitivity temperature sensor based on balloon-shaped bent SMF structure with its original polymer coating,” Measurement Science and TechnologyVol. 29, pp. 085104, 2018.


[20].B. Guo, S. Li, Y. Fan and P. Wang, “Versatile soliton emission from a WS2 mode-locked fiber laser,” Optics Communications, Vol. 406, pp. 66-71, 2018.


[21].M. F. A. Rahman, A. A. Latiff, A. H. A. Rosol, K. Dimyati, P. Wang and S. W. Harun, “Ultrashort Pulse Soliton Fiber Laser Generation with Integration of Antimony Film Saturable Absorber,” Journal of Lightwave Technology, Vol. 36, No. 16, pp. 3522-3527, 2018.


[22].X. Wang, K. Tian, L. Yuan, E. Lewis, G. Farrell, and P. Wang*, “A High Temperature Humidity Sensor Based on a Singlemode-Side Polished Multimode-Singlemode (SSPMS) Fiber Structure,” Journal of Lightwave Technology, Vol. 36, No. 13, pp. 2730-2736, 2018.


[23].P. Wang, H. Zhao, X. Wang, G. Farrell and G. Brambilla, “A review of multimode interference in tapered optical fibers and related applications,” Sensors, Vol. 18, pp.858, 2018.


[24].Y. Jiang, Z. fang, Y. Du, E. Lewis, G. Farrell and P. Wang*, “Highly sensitive temperature sensor using packaged optical microfiber coupler filled with liquids,” Optics Express, Vol. 26, No. 1, pp. 356-366, 2018.
















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