Refractive index optical fiber sensor based on tapered long period gratings
Adiabatically tapered long period fiber grating (LPG) is a new type of grating based sensor that shows high sensitivity to refractive index change of the ambient medium. Compared with fiber Bragg gating (FBG), the diffraction structure in LPG is inscribed by Ultraviolet (UV) laser source...
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sg-ntu-dr.10356-604442023-07-07T16:39:03Z Refractive index optical fiber sensor based on tapered long period gratings Zhang, Bo Tjin Swee Chuan School of Electrical and Electronic Engineering DRNTU::Engineering::Electrical and electronic engineering::Optics, optoelectronics, photonics Adiabatically tapered long period fiber grating (LPG) is a new type of grating based sensor that shows high sensitivity to refractive index change of the ambient medium. Compared with fiber Bragg gating (FBG), the diffraction structure in LPG is inscribed by Ultraviolet (UV) laser source through an amplitude mask with a larger period. The LPG couples fundamental core mode into phase-matched co-propagating cladding modes, corresponding to each resonance dip in transmission spectra. Due to the exposed evanescent fields to the surrounding medium of fiber, the LPG can be used as photonic refractive index (RI) sensor and the sensitivity is higher than that of FBG. In this project, we demonstrated RI sensors based on LPG inscribed in photosensitive single mode fiber with single cladding and double cladding profiles. The influence of diameter reduction and fiber type on the RI sensitivity of TLPG sensors has been investigated by analyzing the transmission spectra and RI characterization diagrams from both experimental and simulated models. First, reducing the fiber diameters will increase the RI sensitivity. Second, double cladding fiber has shown more significant contributions on the incremental values and the detection limit for refractive index is 1.601 x 10-5 . Last but not least, the Boron and Germanium co-doping inner cladding of double cladding fiber lead to the opposite wavelength shifts compared to conventional LPG. In addition, the experiment and simulation results from tapered single cladding fiber with diameter of 60 µm indicate that there is a turning point in cladding modes, where the RI sensitivity is the largest. All these critical findings will have great application potentials to be used in chemical or bio-sensing areas. In the future, more precise simulation tools and wider wavelength range of light source should be implemented to optimize the stable sensor configuration by achieving the largest RI sensitivity. Bachelor of Engineering 2014-05-27T06:19:59Z 2014-05-27T06:19:59Z 2014 2014 Final Year Project (FYP) http://hdl.handle.net/10356/60444 en Nanyang Technological University 56 p. application/pdf |
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DRNTU::Engineering::Electrical and electronic engineering::Optics, optoelectronics, photonics Zhang, Bo Refractive index optical fiber sensor based on tapered long period gratings |
| description |
Adiabatically tapered long period fiber grating (LPG) is a new type of grating based
sensor that shows high sensitivity to refractive index change of the ambient medium.
Compared with fiber Bragg gating (FBG), the diffraction structure in LPG is inscribed by
Ultraviolet (UV) laser source through an amplitude mask with a larger period. The LPG
couples fundamental core mode into phase-matched co-propagating cladding modes,
corresponding to each resonance dip in transmission spectra. Due to the exposed
evanescent fields to the surrounding medium of fiber, the LPG can be used as photonic
refractive index (RI) sensor and the sensitivity is higher than that of FBG.
In this project, we demonstrated RI sensors based on LPG inscribed in photosensitive
single mode fiber with single cladding and double cladding profiles. The influence of
diameter reduction and fiber type on the RI sensitivity of TLPG sensors has been
investigated by analyzing the transmission spectra and RI characterization diagrams from
both experimental and simulated models.
First, reducing the fiber diameters will increase the RI sensitivity. Second, double
cladding fiber has shown more significant contributions on the incremental values and
the detection limit for refractive index is 1.601 x 10-5
. Last but not least, the Boron and
Germanium co-doping inner cladding of double cladding fiber lead to the opposite
wavelength shifts compared to conventional LPG. In addition, the experiment and
simulation results from tapered single cladding fiber with diameter of 60 µm indicate that
there is a turning point in cladding modes, where the RI sensitivity is the largest.
All these critical findings will have great application potentials to be used in chemical or
bio-sensing areas. In the future, more precise simulation tools and wider wavelength
range of light source should be implemented to optimize the stable sensor configuration
by achieving the largest RI sensitivity. |
| author2 |
Tjin Swee Chuan |
| author_facet |
Tjin Swee Chuan Zhang, Bo |
| format |
Final Year Project |
| author |
Zhang, Bo |
| author_sort |
Zhang, Bo |
| title |
Refractive index optical fiber sensor based on tapered long period gratings |
| title_short |
Refractive index optical fiber sensor based on tapered long period gratings |
| title_full |
Refractive index optical fiber sensor based on tapered long period gratings |
| title_fullStr |
Refractive index optical fiber sensor based on tapered long period gratings |
| title_full_unstemmed |
Refractive index optical fiber sensor based on tapered long period gratings |
| title_sort |
refractive index optical fiber sensor based on tapered long period gratings |
| publishDate |
2014 |
| url |
http://hdl.handle.net/10356/60444 |
| _version_ |
1772827854126448640 |