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Pengfei Wang
Pengfei Wang
College of Physics and Optoelectronic Engineering, Harbin Engineering University, China
Verified email at hrbeu.edu.cn - Homepage
Title
Cited by
Cited by
Year
High sensitivity SMS fiber structure based refractometer–analysis and experiment
Q Wu, Y Semenova, P Wang, G Farrell
Optics Express 19 (9), 7937-7944, 2011
4292011
A High Sensitivity, Evanescent Feld Refractometric Sensor Based on Tapered Multimode Fiber Interference
P Wang, G Brambilla, M Ding, Q Wu, G Farrell
Optics Letters 36 (12), 2233-2235, 2011
2852011
Single-mode tunable laser emission in the single-exciton regime from colloidal nanocrystals
C Grivas, C Li, P Andreakou, P Wang, M Ding, G Brambilla, L Manna, ...
Nature communications 4 (1), 1-9, 2013
1412013
Fiber refractometer based on a fiber Bragg grating and single-mode–multimode–single-mode fiber structure
Q Wu, Y Semenova, B Yan, Y Ma, P Wang, C Yu, G Farrell
Optics letters 36 (12), 2197-2199, 2011
1382011
Use of a bent single SMS fiber structure for simultaneous measurement of displacement and temperature sensing
Q Wu, AM Hatta, P Wang, Y Semenova, G Farrell
Photonics Technology Letters, IEEE 23 (2), 130-132, 2011
1132011
Low-cost wavelength measurement based on a macrobending single-mode fiber
Q Wang, G Farrell, T Freir, G Rajan, P Wang
Optics letters 31 (12), 1785-1787, 2006
992006
A microfiber coupler tip thermometer
M Ding, P Wang, G Bramilla
Optics Express 20 (5), 5402-5408, 2012
962012
Humidity sensor based on a single-mode hetero-core fiber structure
Q Wu, Y Semenova, J Mathew, P Wang, G Farrell
Optics letters 36 (10), 1752-1754, 2011
952011
Investigation of single-mode–multimode–single-mode and single-mode–tapered-multimode–single-mode fiber structures and their application for refractive index sensing
P Wang, G Brambilla, M Ding, Y Semenova, Q Wu, G Farrell
JOSA B 28 (5), 1180-1186, 2011
952011
Experimental demonstration of a simple displacement sensor based on a bent single-mode–multimode–single-mode fiber structure
Q Wu, Y Semenova, P Wang, AM Hatta, G Farrell
Measurement Science and Technology 22 (2), 025203, 2011
882011
Macrobending single-mode fiber-based refractometer
P Wang, Y Semenova, Q Wu, G Farrell, Y Ti, J Zheng
Applied optics 48 (31), 6044-6049, 2009
862009
Fiber-tip high-temperature sensor based on multimode interference
P Wang, M Ding, L Bo, C Guan, Y Semenova, Q Wu, G Farrell, ...
Optics Letters 38 (22), 4617-4620, 2013
782013
High sensitivity fiber refractometer based on an optical microfiber coupler
L Bo, P Wang, Y Semenova, G Farrell
Photonics Technology Letters, IEEE 25 (3), 228-230, 2013
662013
A Humidity Sensor Based on a Singlemode-Side Polished Multimode–Singlemode Optical Fibre Structure Coated with Gelatin
X Wang, G Farrell, E Lewis, K Tian, L Yuan, P Wang
Journal of Lightwave Technology 35 (18), 4087-4094, 2017
552017
Packaged chalcogenide microsphere resonator with high Q-factor
P Wang, M Ding, T Lee, G Senthil Murugan, L Bo, Y Semenova, Q Wu, ...
Applied Physics Letters 102 (13), 131110, 2013
542013
Polarization Dependence of Bend Loss for a Standard Singlemode Fiber
Q Wang, G Rajan, P Wang, G Farrell
Optics Express 15 (8), 4909-4920, 2007
532007
A Curvature Sensor Based on Twisted Single-Mode–Multimode–Single-Mode Hybrid Optical Fiber Structure
K Tian, Y Xin, W Yang, T Geng, J Ren, YX Fan, G Farrell, E Lewis, P Wang
Journal of Lightwave Technology 35 (9), 1725-1731, 2017
522017
Selective doping of Ni 2+ in highly transparent glass-ceramics containing nano-spinels ZnGa 2 O 4 and Zn 1+ x Ga 2− 2x Ge x O 4 for broadband near-infrared fiber amplifiers
Z Gao, Y Liu, J Ren, Z Fang, X Lu, E Lewis, G Farrell, J Yang, P Wang
Scientific reports 7 (1), 1-8, 2017
492017
Bent SMS fibre structure for temperature measurement
Q Wu, Y Semenova, AM Hatta, P Wang, G Farrell
Electronics letters 46 (16), 1129-1130, 2010
482010
Germanium microsphere high-Q resonator
P Wang, T Lee, M Ding, A Dhar, T Hawkins, P Foy, Y Semenova, Q Wu, ...
Optics Letters 37 (4), 728-730, 2012
472012
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