Harith Ahmad and Soltani, S. and Ismail, M.F. and Kishan Thambiratnam and Yi, C.W. and Moh. Yasin
(2018)
Characterization of light-control-light system using graphene oxide coated optical waveguide.
Laser Physics, 28 (7).
Full text not available from this repository.
Abstract
An optical waveguide was coated with graphene oxide (GO) using the drop-casting technique to increase the interaction between the waveguide's evanescent field and the GO layer. Subsequently, a 1550 nm tunable laser source and 980 nm pump laser is used to study the potential of the GO-film to control the flow of light through the waveguide by altering the state of the waveguide between transparent (ON) and opaque (OFF). The GO layer has a thickness of 0.40 μm and allows a 1550 nm signal with a peak power of -7.0 dBm and average output power of 0 dBm to pass through at a maximum pump power of 60 mW. The waveguide has a responsivity of �0.1 dB mW-1, with the time to switch between the ON and OFF states being about 3 ms. © 2018 Astro Ltd.
| Item Type: |
Article
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| Additional Information: |
cited By 2 |
| Uncontrolled Keywords: |
Evanescent fields; Graphene oxide; Light modulators; Optical waveguides; Pumping (laser), Average output power; Drop casting; Light control; Light systems; Maximum pump power; Optical power; Responsivity; Tunable laser sources, Graphene |
| Divisions: |
Artikel Ilmiah > SCOPUS INDEXED JOURNAL |
| Creators: |
| Creators | NIM |
|---|
| Harith Ahmad | UNSPECIFIED | | Soltani, S. | UNSPECIFIED | | Ismail, M.F. | UNSPECIFIED | | Kishan Thambiratnam | UNSPECIFIED | | Yi, C.W. | UNSPECIFIED | | Moh. Yasin | UNSPECIFIED |
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| Depositing User: |
Ika Rudianto
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| Last Modified: |
31 Dec 2020 14:24 |
| URI: |
http://repository.unair.ac.id/id/eprint/102370 |
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