New structures and materials for next generation photonic technology
We present the main results achieved in light source, light manipulation and imaging and sensing in our competitive research program. In light source, we have for the first time developed grapheme mode-locked lasers and dark pause lasers as well as nano-crystal Si based light emitting devices with c...
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2013
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sg-ntu-dr.10356-991262020-03-07T14:00:31Z New structures and materials for next generation photonic technology Mei, T. Zhang, Dao Hua Tang, Dingyuan Yuan, Xiaocong Chen, Tupei School of Electrical and Electronic Engineering We present the main results achieved in light source, light manipulation and imaging and sensing in our competitive research program. In light source, we have for the first time developed grapheme mode-locked lasers and dark pause lasers as well as nano-crystal Si based light emitting devices with colour tunable. In light manipulation, loss compensation of surface plasmon polaritons (SPPs) using semiconductor gain media was studied theoretically and demonstrated experimentally and the SPP propagation can be controlled through electrical pumping. Microring resonators based on silicon on insulator and III-V semiconductors technologies have been successfully fabricated and they can be used as filter and switch in the photonic circuit. In imaging and sensing, both SPP and metamaterial based lenses are developed and resolution far beyond diffraction limit in visible range has been realized. Broadband photodetectors based on dilute nitrides are also demonstrated. 2013-07-31T06:35:14Z 2019-12-06T20:03:39Z 2013-07-31T06:35:14Z 2019-12-06T20:03:39Z 2011 2011 Journal Article Zhang, D. H., Mei, T., Tang, D., Yuan, X. C.,& Chen, T. (2011). New structures and materials for next generation photonic technology. Applied mechanics and materials, 120, 556-560. 1662-7482 https://hdl.handle.net/10356/99126 http://hdl.handle.net/10220/12624 10.4028/www.scientific.net/AMM.120.556 en Applied mechanics and materials |
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We present the main results achieved in light source, light manipulation and imaging and sensing in our competitive research program. In light source, we have for the first time developed grapheme mode-locked lasers and dark pause lasers as well as nano-crystal Si based light emitting devices with colour tunable. In light manipulation, loss compensation of surface plasmon polaritons (SPPs) using semiconductor gain media was studied theoretically and demonstrated experimentally and the SPP propagation can be controlled through electrical pumping. Microring resonators based on silicon on insulator and III-V semiconductors technologies have been successfully fabricated and they can be used as filter and switch in the photonic circuit. In imaging and sensing, both SPP and metamaterial based lenses are developed and resolution far beyond diffraction limit in visible range has been realized. Broadband photodetectors based on dilute nitrides are also demonstrated. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Mei, T. Zhang, Dao Hua Tang, Dingyuan Yuan, Xiaocong Chen, Tupei |
| format |
Article |
| author |
Mei, T. Zhang, Dao Hua Tang, Dingyuan Yuan, Xiaocong Chen, Tupei |
| spellingShingle |
Mei, T. Zhang, Dao Hua Tang, Dingyuan Yuan, Xiaocong Chen, Tupei New structures and materials for next generation photonic technology |
| author_sort |
Mei, T. |
| title |
New structures and materials for next generation photonic technology |
| title_short |
New structures and materials for next generation photonic technology |
| title_full |
New structures and materials for next generation photonic technology |
| title_fullStr |
New structures and materials for next generation photonic technology |
| title_full_unstemmed |
New structures and materials for next generation photonic technology |
| title_sort |
new structures and materials for next generation photonic technology |
| publishDate |
2013 |
| url |
https://hdl.handle.net/10356/99126 http://hdl.handle.net/10220/12624 |
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1681047913472458752 |