Download ACADEMIC CV

Patents
A torsion sensor, WO 2008/007062
Method and apparatus for inscription, WO2007/099284
Optical resonator cavity, GB0613960.4
In-fibre polariser, in progress
Publication List
Statics of publication
Sum of the Times
Cited :426
Sum of Times Cited
without selfcitations :347
Citing Articles :324
Published Items in Each
Year
Citations in Each Year
Citing Articles without
self-citations :277
Average Citations per
Item:5.68
h-index :13
Journals: 21 as the first Author, 14 as the second author.
Conference: 22 as the first Author 16 as the second author
1.
K. Zhou, Z.Yan, L.Zhang, and I.Bennion, "Refractometer based on fiber Bragg grating FabryPérot cavity embedded with a narrow microchannel," Opt. Express 19, 11769-11779 (2011)
2.
K.Zhou, Lin Zhang; Xianfeng Chen; Vladimir Mezentsev; Ian Bennion, “Microstructures made in
optical fiber with femtosecond laser,” International Journal of Smart and Nano Materials, 1(4),
237 – 248 (2010)
3.
K.Zhou, M.Dubov, C.Mou, L.Zhang, V.Mezentsev, I.Bennion, “Line-by-Line Fiber Bragg Grating
Made by Femtosecond laser”, Photonic Technology Letter, 22(16), 1041-1135(2010)
4.
K.Zhou, D.Webb, C.Mou, M.Farries, N.Hayes, I.Bennion, “Optical Fiber Cavity Ring Down
Measurement of Refractive Index a Microchannel Drilled by Femtosecond Laser”, Photonic
Technology Letter, 21(22), 1653-1655(2009).
5.
K.Zhou, D.Webb, M.Farries,N.Hayes,L.Zhang,I.Bennion, “Biochemical sensor based on a novel
all-fibre cavity ring down spectroscopy technique incorporating a tilted fibre Bragg grating”,
Optics and Lasers in Engineering, 47(10), 1023-1027, (2009)
6.
K. Zhou, X. Chen, Y. Lai, K. Sugden, L. Zhang, and I. Bennion, “In-fiber polymer–glass hybrid
waveguide Bragg grating”, Opt. Lett., 33(15), 1650-1652 (2008)
7.
K. Zhou, Y. Lai, X. Chen, K. Sugden, L. Zhang, and I. Bennion, "A refractometer based on a
micro-slot in a fiber Bragg grating formed by chemically assisted femtosecond laser processing,"
Opt. Express, 15(24), 15848-15853 (2007)
8.
K.Zhou, L.Zhang, X.Chen and I.Bennion, “Low thermal sensitivity grating devices based on ex45o tilting structure capable of forward propagating cladding modes coupling”, J. Lightw.
Technol., 24(12), 5087-5094 (2006)
9.
K.Zhou, L.Zhang, X.Chen, and I.Bennion, “Optic sensors of high refractive index responsivity
and low thermal cross sensitivity utilizing fiber Bragg gratings of >80-tilted structures”, Opt. Lett.,
31(9), 1193-1195(2006)
10. K.Zhou, X.Chen, L.Zhang and I.Bennion, “Implement of optical chemsensors based on HFetched fibre Bragg grating structures”, Meas. Sci. Technol.,, 17(5), 1140-1145(2006).
11. K.Zhou, A.G.Simpson, X.Chen, L.Zhang and I.Bennion, “High extinction ratio in-fibre polariser
based on a 45 º-tilted fibre Bragg grating”, Opt. Lett., 30(11), 1285-1287(2005).
12. K.Zhou, A.G.Simpson, X.Chen, L.Zhang and I.Bennion, “Fibre Bragg grating sensor
interrogation system using a CCD side detection method with superimposed blazed gratings”,
IEEE Photon. Technol. Lett. 16(6), 1549-1551(2004).
13. K.Zhou, X.Chen, L.Zhang and I.Bennion, “High-sensitivity optical chemsensor based on etched
D-fibre Bragg gratings”, Electron. Lett. 40(4), 232-234(2004).
14. K.Zhou, A.G.Simpson, L.Zhang, and I.Bennion, “Two-dimensional optical power distribution of
side-out coupled radiation from tilted FBGs in multimode fibre”, Electron. Lett. 39(8), 651653(2003).
15. K.Zhou, A.G.Simpson, L.Zhang and I.Bennion, “Side-detection of strong radiation mode outcoupling from blazed FBGs in single-mode and multi-mode fibers”, IEEE Photon. Technol. Lett.
15(7), 936-938(2003).
16. K.Zhou, H. Liu, X.Hu, “Tuning the resonant wavelength of long period fiber gratings by etching
the fiber's cladding “, Optics Communications, 197(4-6), 295-299(2001).
17. K.Zhou, H.Ge, G.An, W.Wang, "Wavelength tunable external cavity laser with fiber Bragg grating
as feedback", Chinese Journal of Lasers, 2, 2001
18. K.Zhou, H.Ge, G. An, W.Wang, "Fiber Grating External Cavity Semiconductor Lasers with High
MSR and Narrow Linewidth", ACTA PHOTONICA SINICA 30(4) 2001, ( in Chinese)
19. K.Zhou, H.Ge, Guiren An, W.Wang, "Hybrid cavity semiconductor laser with an in-fiber bragg
grating used as feedback", Chinese Journal of Lasers, 11(1998), ( in Chinese)
20. K.Zhou, H.Ge, G.An, W.Wang, "Band-pass filters based on Moire fiber grating" , ACTA
PHOTONICA SINICA, 27(9), 1998, ( in Chinese)
21. K.Zhou, S.Pan et al, "Band edge quadratic electro-optical effect and photorefractive effect of low
temperature-growth MBE GaAs", Chinese Journal of Semiconductors, 18(9) 1997, ( in Chinese)
22. Amos Martinez, Kaiming Zhou, Ian Bennion, and Shinji Yamashita, "Passive mode-locked
lasing by injecting a carbon nanotube-solution in the core of an optical fiber," Opt. Express,18,
11008-11014 (2010)
23. Mou, C; Zhou, K; Davies, E; Zhang, L; Bennion, I; “Fiber Laser Incorporating an Intracavity
Micro-channel for Refractive Index and Temperature Sensing”, IEEE Photonics Technology
Letters, 21(20), pp. 1559-1561(2009)
24. Chengbo Mou, Kaiming Zhou, Lin Zhang, and Ian Bennion, "Characterization of 45°-tilted
fiber grating and its polarization function in fiber ring laser," J. Opt. Soc. Am. B 26(10), 19051911 (2009)
25. Fu, H. Y.; Zhou, K. M.; Saffari, P.; Mou, C. B.; Zhang, L.; He, S. L. & Bennion, I.,
“Microchanneled Chirped Fiber Bragg Grating Formed by Femtosecond Laser-Aided Chemical
Etching for Refractive Index and Temperature Measurements”, IEEE Photonics Technology
Letters, 20(19), 1609-1611(2008)
26. Martinez, A.; Zhou, K. M.; Bennion, I. & Yamashita, S. “In-fiber microchannel device filled with a
carbon nanotube dispersion for passive mode-lock lasing”, Optics Express, 2008, 16, 1542515430
27. Y. Lai, K. Zhou, K. Sugden, and I. Bennion, "Point-by-point inscription of first-order fiber Bragg
grating for C-band applications," Opt. Express 15, 18318-18325 (2007)
28. X.Chen, K.Zhou, L.Zhang and I.Bennion, “Dual-peak LPG based devices with enhanced
refractive index sensitivity by finely tailoring mode dispersion property using light cladding etching
technique”, Appl. Opt. 46(4) 451-455 (2007)
29. Y.Lai, K.Zhou, L.Zhang and I.Bennion, “Microchannels in conventional single-mode fibers”, Opt.
Lett. 31(17), 2559-2561(2006).
30. X.Chen, K.Zhou, L.Zhang and I.Bennion, “In-fiber twist sensor based on a fiber Bragg grating
with 81º tilted structure”, IEEE Photon. Technol. Lett. 18(24), 2596-2598(2006)
31. X.Chen, K.Zhou, L.Zhang and I.Bennion, “Simultaneous measurement of temperature and
external refractive index by use of a hybrid grating in D fibre with enhanced sensitivity by HF
etching”, Appl. Opt. 44(1), 178-182(2005).
32. X.Chen, K.Zhou, L.Zhang and I.Bennion, “Optical chemsensor based on etched tiled Bragg
grating structures in multimode fiber”, IEEE Photon. Technol. Lett. 17, 864-866(2005).
33. X.Chen, K.Zhou, L.Zhang and I.Bennion, “Optical chemsensors utilizing long-period fiber
gratings UV-inscribed in D-fiber with enhanced sensitivity through cladding etching”, IEEE
Photon. Technol. Lett. 16(5), 1352-1354(2004).
34. A.G.Simpson, K.Zhou, L.Zhang and I.Bennion, “Optical sensor interrogation using a blazed fibre
Bragg grating and CCD linear array”, Appl. Opt. 43(1), 33-40(2004).
35. Zhao DH, Zhou KM, Chen XF, Zhang L, Bennion I, Flockhart G, MacPherson WN, Barton JS,
Jones JDC, "Implementation of vectorial bend sensors using long-period gratings UV-inscribed in
special shape fibres," MEASUREMENT SCIENCE & TECHNOLOGY,15(8),1647-1650(2004)
36. Chengbo Mou, Aleksey G. Rozhin, Raz Arif, Kaiming Zhou, and Sergei
Turitsyn, Polarization insensitive in-fiber mode-locker based on carbon
nanotube with N-methyl-2-pryrrolidone solvent filled fiber microchamber
Appl. Phys. Lett. 100, 101110 (2012), DOI:10.1063/1.3691922
37. Allsop, Thomas; Kalli, Kyriacos; Zhou, Kaiming; Smith, Graham N; Komodromos,
Michael; Petrovic, Jovana; Webb, David J; Bennion, Ian, Spectral characteristics and
thermal evolution of long-period gratings in photonic crystal fibers fabricated with a
near-IR radiation femtosecond laser using point-by-point inscription, JOSA B, Vol. 28
Issue 9, pp.2105-2114 (2011)
38.
Zhijun Yan; Chengbo Mou; Kaiming Zhou; Xianfeng Chen; Lin Zhang; , "UVInscription, Polarization-Dependant Loss Characteristics and Applications of 45°Tilted
Fiber Gratings," Lightwave Technology, Journal of , vol.29, no.18, pp.2715-2724,
39. Suo, R.; Chen, X. F.; Zhou, K. M.; Zhang, L. & Bennion, I. , “In-fibre directional transverse
loading sensor based on excessively tilted fibre Bragg gratings” Measurement Science &
Technology, 20, (2009 )
40. T. Allsop, K. Kalli, K. Zhou, Y. Lai, G. Smith, M. Dubov, D.J. Webb and I. Bennion, “Long period
gratings written into a photonic crystal fibre by a femtosecond laser as directional bend sensors”,
Optics Communications, 281(20), 5092-5096(2008)
41. R.Suo, X.Chen, K.Zhou, L.Zhang, I.Bennion, “800 nm WDM Interrogation System for Strain,
Temperature, and Refractive Index Sensing Based on Tilted Fiber Bragg Grating”, IEEE sensors
,8(7), 1273-1279(2008).
42. X. Chen, L. Zhang, K. Zhou, E. Davies, K. Sugden, I. Bennion, M. Hughes, and A. Hine, “Realtime detection of DNA interactions with long-period fiber grating based biosensor”, Opt. Lett., 32
(17), 2541-2543, (2007)
43. K.Kalli, A.G.Simpson, K.Zhou, L.Zhang and I.Bennion, “Tailoring the temperature and strain
coefficients of Type I and Type IA dual grating sensors—the impact of hydrogenation conditions”,
Meas. Sci. Technol. 17 (5), 949-954(2006)
44. K Kalli, A G Simpson, K.Zhou, L Zhang, D Birkin, T Ellingham and I Bennion, “Spectral
modification of type IA fibre Bragg gratings by high-power near-infrared lasers”, Meas. Sci.
Technol., 17(5), 968-974(2006)
45. A.G.Simpson, K.Kalli, K.Zhou, L.Zhang and I.Bennion, “Blank beam fabrication of regenerated
type IA gratings”, Meas. Sci. Technol., 15(8), 1665-1669(2004).
46. A.G.Simpson, K.Kalli, K.Zhou, L.Zhang and I.Bennion, “Formation of type IA fibre Bragg gratings
in germanosilicate optical fibre”, Electron. Lett. 40(3), 163-164 (2004).
47. D.Zhao, X.Chen, K.Zhou, L.Zhang, I.Bennion, “Bend sensors with direction recognition based on
long-period gratings written in D-shaped fibre,” Appl. Opt. , 43(29), 5425-5428( 2004)
48. Chengbo Mou, Hua Wang, Brandon G. Bale, Kaiming Zhou, Lin Zhang, and Ian Bennion, "Allfiber passively mode-locked femtosecond laser using a 45º-tilted fiber grating polarization
element," Opt. Express 18, 18906-18911 (2010)
49. Chengbo Mou, Pouneh Saffari, Hongyan Fu, Kaiming Zhou, Lin Zhang, and Ian Bennion,
"Single- and dual-wavelength switchable erbium-doped fiber ring laser based on intracavity
polarization selective tilted fiber gratings," Appl. Opt. 48, 3455-3459 (2009)
50. Hine, A. V.; Chen, X.; Hughes, M. D.; Zhou, K.; Davies, E.; Sugden, K.; Bennion, I. & Zhang, L.
“Optical fibre-based detection of DNA hybridization”, BIOCHEMICAL SOCIETY
TRANSACTIONS, PORTLAND PRESS LTD, 37, 445-449(2009)
51. Suo, R.; Lousteau, J.; Li, H.; Jiang, X.; Zhou, K.; Zhang, L.; MacPherson, W. N.; Bookey, H. T.;
Barton, J. S.; Kar, A. K.; Jha, A. & Bennion, I. , “Fiber Bragg gratings inscribed using 800nm
femtosecond laser and a phase mask in singleand multi-core mid-IR glass fibers,” Opt. Express,
17, 7540-7548(2009)
52. Mou, C.; Saffari, P.; Li, D.; Zhou, K.; Zhang, L.; Soar, R. & Bennion, I. “Smart structure sensors
based on embedded fibre Bragg grating arrays in aluminium alloy matrix by ultrasonic
consolidation”, MEASUREMENT SCIENCE & TECHNOLOGY, IOP PUBLISHING LTD, 20, 2009
53. Mou, C.; Saffari, P.; Fu, H.; Zhou, K.; Zhang, L. & Bennion, I. “Single- and dual-wavelength
switchable erbium-doped fiber ring laser based on intracavity polarization selective tilted fiber
gratings”, Appl. Opt., OSA, 48, 3455-3459, (2009)
Conferences
54.
P.Saffari, Z.Yan, K.Zhou, L.Zhang, I.Bennion, “Liquid core fibre Bragg grating based
refractive index sensor formed by femtosecond assisted chemical etching technique”,
Proceedings of SPIE 21st International Conference on Optical Fiber Sensors
Vol.7753, Article Number: 77538P
55.
Z.Yan, A.Adebayo,K. Zhou, L.Zhang ,D.Webb, “All-fibre twist sensor system based on
45 degrees and 81 degrees tilted fibre gratings” Proceedings of SPIE 21st International
Conference on Optical Fiber Sensors, Vol.7753, Article Number: 77538E
56. K. Zhou, C. Mou, M. Dubov,, L. Zhang, and I. Bennion, "Line by Line Fiber Bragg Grating by
Femtosecond Laser," in Bragg Gratings, Photosensitivity, and Poling in Glass Waveguides, OSA
Technical Digest (CD) (Optical Society of America, 2010), paper JThA24.
57. C. Mou, R. Suo, K. Zhou, L. Zhang, and I. Bennion, "2nd Order Bragg Rasonance Generated In
A 45º Tilted Fiber Grating And Its Application In A Fiber Laser," in Bragg Gratings,
Photosensitivity, and Poling in Glass Waveguides, OSA Technical Digest (CD) (Optical Society
of America, 2010), paper BTuA7.
58. C. Mou, H. Wang, B. Bale, K. Zhou, L. Zhang, S. Turitsyn, and I. Bennion, "All Fibre
Femtosecond Pulse Generation Using an Intracavity 45º-Tilted Fibre Grating," in Bragg Gratings,
Photosensitivity, and Poling in Glass Waveguides, OSA Technical Digest (CD) (Optical Society
of America, 2010), paper BTuA4.
59. Zhou, K.; Webb, D.; Mou, C.; Farries, M.; Hayes, N. & Bennion, I. , “Optical fibre cavity ring
down measurement of refractive index with a microchannel drilled by femtosecond laser”, 20th
International Conference on Optical Fibre Sensors, Edinburgh (United Kingdom), 2009
60. Mou, C.; Zhou, K.; Suo, R.; Zhang, L. & Bennion, I. “Fibre laser torsion sensor system using an
excessively tilted fibre grating and low-cost time domain demodulation”, 20th International
Conference on Optical Fibre Sensors, Edinburgh, United Kingdom, 2009
61. Saffari, P.; Fu, H.; Zhou, K.; Zhang, L. & Bennion, I., Baldini, F.; Homola, J. & Lieberman, R. A.
(ed.) “Microchanneled chirped fibre Bragg gratings for simultaneous refractive index and
temperature measurements”, Optical Sensors 2009, SPIE, 2009, 7356, 735604
62. Mou, C.; Zhou, K.; Davies, E.; Zhang, L. & Bennion, I. “Fibre laser using a microchannel-based
loss tuning element for refractive index sensing”, 20th International Conference on Optical Fibre
Sensors, Edinburgh, United Kingdom, 2009
63. Kaiming Zhou, Xianfeng Chen, David Webb, Lin Zhang, Ian Bennion, “Simultaneous
temperature and strain measurement with enhanced resolution up to 20 times by using a
compact hybrid optical waveguide Bragg grating”, submitted to AOE 2008, Shanghai, China.
64. Mou, C.; Zhou, K.; Zhang, L. & Bennion, I. “Thermal Insensitive Optical Liquid Level Sensor
Based on Excessively Tilted Fibre Bragg Grating”, Asia Optical Fiber Communication and
Optoelectronic Exposition and Conference (AOE), October 30- November 2, Shanghai, China.,
2008
65. Amos Martinez, Kaiming Zhou, Ian Bennion and Shinji Yamashita,”High energy all-fiber
passively mode locked laser based on a Carbon nanotube-filled micro channel”, paper ThM-3,
OECC/ACFOT 2008 Conference.
66. Fu, H.; Zhou, K.; Saffari, P.; Mou, C.; Zhang, L.; He, S. & Bennion, I. “Microchannelled chirped
fibre Bragg grating based refractive index sensor formed by femto-second laser processing and
hf-etching”, Optical Communication, 2008. ECOC 2008. 34th European Conference on, 2008, 12
67. K.Zhou, X.Chen, Y.Lai, K.Sugden, L.Zhang, I.Bennion, “Highly Thermally Responsive Hybrid InFiber Slab Waveguide Grating Structure with a Plastic Core and a Silica Cladding ”, CLEO 2008,
San Jose, California, U.S.A, paper CMK2
68. Y. Lai, K. Zhou, K. Sugden, I. Bennion, “Point-By-Point Inscription of Sub-Micrometer Period
Fiber Bragg Gratings”, CLEO 2008, San Jose, California, U.S.A, paper CMK2, CTuU2
69. R.Suo, X.Chen, K.Zhou, L.Zhang, I.Bennion, “Polarisation mode coupling of excessively tilted
fibre Bragg gratingswith directional transverse loading”, OFS-19, Perth, Australia, 7004-176,2008
70. C.Mou, P.Saffari, D.Li, K.Zhou, L.Zhang, R.Soar, I.Bennion, “Embedded Fibre Bragg Grating
Array Sensors in Aluminium Alloy Matrix by Ultrasonic Consolidation”, OFS-19, Perth, Australia,
7004-187,2008
71. T. Allsop, K. Kalli, K. Zhou, G. Smith, D.J. Webb, V. Mezentsev, I. Bennion, “The Spectral
Characteristics of Femtosecond Laser inscribed Long Period Grating Bend Sensors written into a
Photonic Crystal Fibre”, OFS-19, Perth, Australia, 7004-256, 2008
72. T. Allsop, K. Kalli, K. Zhou, M. Dubov, Y. Lai, D.J. Webb, I. Bennion, “Annealing and Spectral
Characteristics of Femtosecond Laser Inscribed Long Period Gratings written into a Photonic
Crystal Fibre”, OFS-19, Perth, Australia, 7004-195, 2008
73. Allsop, T.; Kalli, K.; Zhou, K. M.; Smith, G.; Lai, Y. C.; Dubov, M.; Sugden, K. A. A.; Webb, D.;
Bennion, I. & Komodromos, M. “Characterisation of femtosecond laser inscribed long period
gratings in photonic crystal fibre - art. no. 69900I , Photonic Crystal Fibers Ii, 2008, 6990, I9900I9900
74. K. Zhou, Y. Lai, X. Chen, K. Sugden, L. Zhang and I. Bennion, “Refractometer based on a liquid
core FBG device”, Bragg Gratings, Poling and Photosensitivity (BGPP) Post dealine, Quebec,
Canada, 2007
75. X. Chen, M. Hughes, K. Zhou, E. Davies, L. Zhang, A. Hine, I. Bennion, “Long-Period Fibre
Grating Based Biosensor for Detection of DNA Hybridisation” Bragg Gratings, Poling and
Photosensitivity (BGPP), BTuE4, Quebec, Canada, 2007
76. R. Suo, Y. Lai, K. Zhou, L. Zhang, I. Bennion, X. Jiang, J. Lousteau, A. Jha, “Long-Period
Gratings in Near-Single-Mode GeO2 Glass Fiber by IR Femtosecond Laser Inscription”, Bragg
Gratings, Poling and Photosensitivity (BGPP), BWB5, Quebec, Canada, 2007
77. I. Bennion, V. Mezentsev, M. Dubov, D. Nikogosyan, J. Petrovic, Y. Lai, G. Smith, K. Zhou, K.
Sugden, “Device Fabrication by Femtosecond Laser Inscription” Bragg Gratings, Poling and
Photosensitivity (BGPP),BWB6,Quebec, Canada, 2007.
78. C. Mou, X. Chen, K. Zhou, L. Zhang, I. Bennion, S.Fu, X. Dong, “Realisation of Single
Polarisation State of Fibre Ring Laser by Utilising Intracavity 45° Tilted Fibre Bragg Grating”
Bragg Gratings, Poling and Photosensitivity (BGPP) ,JWA46, Quebec, Canada, 2007.
79. K. Kalli, G. Simpson, K. Zhou, L. Zhang, I. Bennion, “Dependence of Type IA FBG Growth on
Inscription Intensity”, Bragg Gratings, Poling and Photosensitivity (BGPP), JWA36, Quebec,
Canada, 2007.
80. R. Suo, X. Chen, K. Zhou, L. Zhang, I. Bennion, B. Liu, “Tilted fibre Bragg grating based 800nm
WDM interrogation system for strain, temperature and refractive index sensing”, Third European
Workshop on Optical Fibre Sensors (EWOFS), session3-78, Napoli, Italy, Jul. 2007
81. K.Zhou, L.Zhang, X.Chen, R.Suo and I.Bennion,”Implementation of Optical Fibre Sensors with
Low Thermal Cross-Sensitivity Utilising Ex-45 Degree Tilting Grating Structures”, 18th
conference on optical fiber sensors (OFS-18),TuD3, Cacun, Mexico,2006.
82. K.Zhou, D.Webb, L.Zhang, I.Bennion and M.Farries,”Biochemical Sensor Based on a Novel AllFibre Cavity Ring Down Spectroscopy Technique Incorporating a Tilted Fibre Bragg Grating”,
18th conference on optical fiber sensors(OFS-18), WA8. Cacun, Mexico, 2006
83. Y.Lai, K.Zhou, L.Zhang and I.Bennion,”Micro-Channels in Conventional Single-Mode Fibers for
Refractive Index Sensing Applications”, 18th conference on optical fiber sensors(OFS18),TuE26, Cacun, Mexico,2006
84. X.Chen, K.Zhou, L.Zhang and I.Bennion,”In-Fibre Twist Sensor Based on TFBG Structures”,
18th conference on optical fiber sensors (OFS-18), TuE29, Cacun, Mexico,2006
85. Y.Lai, K.Zhou, M.Dubov, L.Zhang and I.Bennion,”Fabrication of micro-channels in optical fibers
using femtosecond laser pulses and selective chemical etching”, Optical Fiber Communication
Conference & Exposition and the National Fiber Optic Engineers Conference (OFC/NFOEC),
OTuL4, Anaheim,California,2006
86. K.Zhou, X.Chen, A.G.Simpson, L.Zhang and I.Bennion, “High extinction ratio in-fibre polariser
based on a 45 -tilted fibre Bragg grating “, Optical Fiber Communication Conference, OME-22
Anaheim,California, 2005
87. K.Zhou, L.Zhang, X.Chen and I.Bennion,”Forward cladding modes coupling assisted by tilted
grating with large tilting angle”, Bragg Gratings, Poling and Photosensitivity (BGPP), 73-75,
Sydney, Australia 2005.
88. K.Zhou, X.Chen, G.Simpson, L.Zhang and I.Bennion, ,”Broad bandwidth, high extinction ratio infiber polarizers based on radiation mode coupling using 45o-titled fibre Bragg gratings”,30th
Australian Conference on Optical Fibre Technology (ACOFT), Sydney, Australia, 387-389, 2005
89. K.Zhou, X.Chen, L.Zhang and I.Bennion (2005),”Co-propagating cladding modes coupling
assisted by tilted Bragg grating with large tilting angle”, 31st European Conference on Optical
Communication (ECOC-31), Tu4.6.6., Glasgow, U.K. 2005
90. X.Chen, K.Zhou, L.Zhang and I.Bennion, , “Implementation of high-sensitivity optical biosensors
using lightly etched dual-peak LPGs”, Bragg Gratings, Poling and Photosensitivity (BGPP), pp.
86-88,Sydney, Australia,2005.
91. X.Chen, K.Zhou, L.Zhang and I.Bennion,”Optical chemsensor based on different mode response
of tilted Bragg grating in multimode fiber”'30th Australian Conference on Optical Fibre
Technology (ACOFT)', 192-194, Sydney, Australia, (2005)
92. X.Chen, K.Zhou, L. Zhang and I.Bennion, “High sensitivity biosensors based on dual-peak LPGs
sensitised by light cladding etching”, 17th International Conference on Optical Fibre Sensors
(OFS-17), Proc.SPIE 5855, pp.383-386. Bruges,Belgium,2005
93. K.Zhou, X.Chen, L.Zhang and I.Bennion,”Optical chemsensors based on etched FBG gratings in
D-shape and multimode fibers”, 17th International Conference on Optical Fibre Sensors (OFS17) Proc.SPIE 5855, 158-161. Bruges, Belgium, 2005
94. K.Zhou, G.Simpson, X.Chen, L.Zhang and I.Bennion, “fibre Bragg grating sensor interrogation
system using a CCD side detection method with superimposed blazed gratings”,30th European
Conference on Optical Communication (ECOC-30), We4.p.002., Stockholm, Sweden, (2004)
95. K.Zhou, X.Chen, A.G.Simpson, D.Zhao, L.Zhang and I.Bennion, “Temperature refernced high
sensitivity point-probe optical fiber chem-sensors based on cladding etched fiber Bragg gratings”,
Proc. SPIE. Vol 5456, pp. 409-414, Strasbourg, France, 2004
96. K.Zhou, X.Chen, L.Zhang and I.Bennion, “Novel optical chemsonsor based on etched D-fiber
Bragg gratings”, Conference on Lasers and Electro-Optics(CLEO), CWA64, San Jose,
California,2004,
97. Y.Lai, K.Zhou, L.Zhang and I.Bennion, “Superimposed Polarizing fibre Bragg Grating Filters in
Conventional Photosensitive Single-Mode fibres”, 7TH Annual Meeting IEEE Laser and Electrooptics Society (LEOS), WDD4, pp. WDD4, Puerto Rico,2004
98. K.Zhou, A.G.Simpson, L.Zhang and I.Bennion, “Low-cost in-fiber WDM devices using tilted
FBGs”, Conference on Lasers and Electro-Optics (CLEO). CTUI3, Baltimore, Maryland, 2003
99. A.G.Simpson, K.Zhou, L.Zhang and I.Bennion, “Wide bandwidth, high resolution spectral
interrogation using a BFBG-CCD array for optical sensing applications”, 16th International
Conference on Optical Fibre Sensors (OFS-16), pp. th1-5. (2003)
100. A.G.Simpson, K.Zhou, L.Zhang and I.Bennion, “High accuracy interrogation of a WDM FBG
sensor array using radiation modes from a B-FBG”, Topical Meeting on Bragg Gratings,
Photosensitivity and Poling in Glass Waveguides (BGPP “2003), pp. 82-84. (2003)
101. A.G.Simpson, K.Zhou, P.Foote, L.Zhang and I.Bennion, “Polarisation independent, high
resolution spectral interrogation of FBG sensors using a BFBG-CCD array for optical sensing
applications”, in SPIE Photonics East, pp. 5272-45. (2003)
102. A.G.Simpson, K.Kalli, K.Zhou, L.Zhang and I.Bennion, “An idealised method for the
fabrication of temperature invariant Ia-I strain sensors”, 16th International Conference on Optical
Fibre Sensors (OFS-2003), pp. 14-17. (2003)
103. A.G.Simpson, K.Kali, L.Zhang, K.Zhou and I.Bennion,Abnormal photosensitivity effects and
the formation of type IA FBGs, in “Topical Meeting on Bragg Gratings, Photosensitivity and
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