Micro-current source generated by a WGM of light within a stacked silicon-graphene-au waveguide
A micro-current source using the drive electron mobility model is proposed by using the non-linear micro-ring resonator. The system consists of a nonlinear microring resonator known as Panda ring resonator made of InGaAsP/InP. The stacked waveguide (plasmonic island) of silicon-graphene-gold is form...
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my.utm.762352018-06-26T07:53:26Z http://eprints.utm.my/id/eprint/76235/ Micro-current source generated by a WGM of light within a stacked silicon-graphene-au waveguide Pornsuwancharoen, N. Amiri, I. S. Suhailin, F. H. Aziz, M. S. Ali, J. Singh, G. Yupapin, P. Q Science (General) A micro-current source using the drive electron mobility model is proposed by using the non-linear micro-ring resonator. The system consists of a nonlinear microring resonator known as Panda ring resonator made of InGaAsP/InP. The stacked waveguide (plasmonic island) of silicon-graphene-gold is formed at the center of the Panda ring, through which the whispering gallery mode (WGM) of light can be controlled and generated by the central ring it allows the driven electron mobility within the gold layer that can increase WGM beam acceleration and device current density with respect to the input optical power and ring parameters. The simulation results are obtained using the Opti-wave and MATLAB software programs. Results have shown that the relationship between the input of optical power and driven output current density can be obtained. Institute of Electrical and Electronics Engineers Inc. 2017 Article PeerReviewed Pornsuwancharoen, N. and Amiri, I. S. and Suhailin, F. H. and Aziz, M. S. and Ali, J. and Singh, G. and Yupapin, P. (2017) Micro-current source generated by a WGM of light within a stacked silicon-graphene-au waveguide. IEEE Photonics Technology Letters, 29 (21). pp. 1768-1771. ISSN 1041-1135 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85030241094&doi=10.1109%2fLPT.2017.2751678&partnerID=40&md5=615ea7124fe20af501c66c94b4076544 |
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Q Science (General) Pornsuwancharoen, N. Amiri, I. S. Suhailin, F. H. Aziz, M. S. Ali, J. Singh, G. Yupapin, P. Micro-current source generated by a WGM of light within a stacked silicon-graphene-au waveguide |
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A micro-current source using the drive electron mobility model is proposed by using the non-linear micro-ring resonator. The system consists of a nonlinear microring resonator known as Panda ring resonator made of InGaAsP/InP. The stacked waveguide (plasmonic island) of silicon-graphene-gold is formed at the center of the Panda ring, through which the whispering gallery mode (WGM) of light can be controlled and generated by the central ring it allows the driven electron mobility within the gold layer that can increase WGM beam acceleration and device current density with respect to the input optical power and ring parameters. The simulation results are obtained using the Opti-wave and MATLAB software programs. Results have shown that the relationship between the input of optical power and driven output current density can be obtained. |
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Article |
author |
Pornsuwancharoen, N. Amiri, I. S. Suhailin, F. H. Aziz, M. S. Ali, J. Singh, G. Yupapin, P. |
author_facet |
Pornsuwancharoen, N. Amiri, I. S. Suhailin, F. H. Aziz, M. S. Ali, J. Singh, G. Yupapin, P. |
author_sort |
Pornsuwancharoen, N. |
title |
Micro-current source generated by a WGM of light within a stacked silicon-graphene-au waveguide |
title_short |
Micro-current source generated by a WGM of light within a stacked silicon-graphene-au waveguide |
title_full |
Micro-current source generated by a WGM of light within a stacked silicon-graphene-au waveguide |
title_fullStr |
Micro-current source generated by a WGM of light within a stacked silicon-graphene-au waveguide |
title_full_unstemmed |
Micro-current source generated by a WGM of light within a stacked silicon-graphene-au waveguide |
title_sort |
micro-current source generated by a wgm of light within a stacked silicon-graphene-au waveguide |
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Institute of Electrical and Electronics Engineers Inc. |
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2017 |
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http://eprints.utm.my/id/eprint/76235/ https://www.scopus.com/inward/record.uri?eid=2-s2.0-85030241094&doi=10.1109%2fLPT.2017.2751678&partnerID=40&md5=615ea7124fe20af501c66c94b4076544 |
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