Report on industrial attachment with Nanophotonics and Electronic Integration Group Data Storage Institute, Singapore
Photonic Integrated Circuits (PIC) promise THz speeds as compared to the GHz speeds offered by electronic circuits. The design of optoelectronic/photonic devices is challenged by the complexity of light interaction with semiconductor media. Irregular device geometries complicate matters further maki...
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sg-ntu-dr.10356-191582023-07-07T15:47:45Z Report on industrial attachment with Nanophotonics and Electronic Integration Group Data Storage Institute, Singapore Koustuban Ravi. School of Electrical and Electronic Engineering Ho Seng Tiong Lai Yicheng Liu Chongyang DRNTU::Engineering::Electrical and electronic engineering Photonic Integrated Circuits (PIC) promise THz speeds as compared to the GHz speeds offered by electronic circuits. The design of optoelectronic/photonic devices is challenged by the complexity of light interaction with semiconductor media. Irregular device geometries complicate matters further making analytical methods limited in their use. In the wake of these challenges, a need for accurate modeling arises. In this project, the Finite Domain Time Difference (FDTD) method was used to investigate optoelectronic devices with a special focus on passively mode locked semiconductor lasers. The current FDTD model employed is seen to model the physics of such complex devices with high accuracy while remaining computationally efficient. Simulation results for mode locked lasers considering electronic band structure, thermal and band filling effects are obtained for the first time. 0 2009-10-23T07:56:07Z 2009-10-23T07:56:07Z 2008 2008 Industrial Attachment (IA) http://hdl.handle.net/10356/19158 en Nanyang Technological University 102 p. application/pdf |
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DRNTU::Engineering::Electrical and electronic engineering Koustuban Ravi. Report on industrial attachment with Nanophotonics and Electronic Integration Group Data Storage Institute, Singapore |
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Photonic Integrated Circuits (PIC) promise THz speeds as compared to the GHz speeds offered by electronic circuits. The design of optoelectronic/photonic devices is challenged by the complexity of light interaction with semiconductor media. Irregular device geometries complicate matters further making analytical methods limited in their use. In the wake of these challenges, a need for accurate modeling arises. In this project, the Finite Domain Time Difference (FDTD) method was used to investigate optoelectronic devices with a special focus on passively mode locked semiconductor lasers. The current FDTD model employed is seen to model the physics of such complex devices with high accuracy while remaining computationally efficient. Simulation results for mode locked lasers considering electronic band structure, thermal and band filling effects are obtained for the first time. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Koustuban Ravi. |
| format |
Industrial Attachment (IA) |
| author |
Koustuban Ravi. |
| author_sort |
Koustuban Ravi. |
| title |
Report on industrial attachment with Nanophotonics and Electronic Integration Group Data Storage Institute, Singapore |
| title_short |
Report on industrial attachment with Nanophotonics and Electronic Integration Group Data Storage Institute, Singapore |
| title_full |
Report on industrial attachment with Nanophotonics and Electronic Integration Group Data Storage Institute, Singapore |
| title_fullStr |
Report on industrial attachment with Nanophotonics and Electronic Integration Group Data Storage Institute, Singapore |
| title_full_unstemmed |
Report on industrial attachment with Nanophotonics and Electronic Integration Group Data Storage Institute, Singapore |
| title_sort |
report on industrial attachment with nanophotonics and electronic integration group data storage institute, singapore |
| publishDate |
2009 |
| url |
http://hdl.handle.net/10356/19158 |
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1772825438592172032 |