Integrated photonic devices for realizing photonic quantum computing: part 1: FDTD (quantum devices)
The search for viable quantum computing systems has prompted the investigation of several platforms, with photonic devices showing great promise. To advance photonic quantum computing, this report focuses on the usage of integrated photonic devices, namely beam splitters functioning as directional c...
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2024
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sg-ntu-dr.10356-1763332024-05-17T15:45:06Z Integrated photonic devices for realizing photonic quantum computing: part 1: FDTD (quantum devices) Muhammad Faris Zikri Bin Zainal Nam Donguk School of Electrical and Electronic Engineering dnam@ntu.edu.sg Engineering The search for viable quantum computing systems has prompted the investigation of several platforms, with photonic devices showing great promise. To advance photonic quantum computing, this report focuses on the usage of integrated photonic devices, namely beam splitters functioning as directional couplers. The first section of the report introduces the essential ideas behind photonic quantum computing and emphasizes the significance of integrated photonic devices in this context. The details of beam splitters as directional couplers and their significant function in quantum computing activities are then covered in detail. The finite-difference time-domain (FDTD) approach is a useful tool for simulating quantum systems, and it is covered in detail in this research. With an emphasis on FDTD's use in integrated photonic devices, the paper examines both its advantages and disadvantages, opening the door to more thorough simulations of quantum circuits. Bachelor's degree 2024-05-16T02:31:09Z 2024-05-16T02:31:09Z 2024 Final Year Project (FYP) Muhammad Faris Zikri Bin Zainal (2024). Integrated photonic devices for realizing photonic quantum computing: part 1: FDTD (quantum devices). Final Year Project (FYP), Nanyang Technological University, Singapore. https://hdl.handle.net/10356/176333 https://hdl.handle.net/10356/176333 en A2151-231 application/pdf Nanyang Technological University |
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Engineering Muhammad Faris Zikri Bin Zainal Integrated photonic devices for realizing photonic quantum computing: part 1: FDTD (quantum devices) |
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The search for viable quantum computing systems has prompted the investigation of several platforms, with photonic devices showing great promise. To advance photonic quantum computing, this report focuses on the usage of integrated photonic devices, namely beam splitters functioning as directional couplers. The first section of the report introduces the essential ideas behind photonic quantum computing and emphasizes the significance of integrated photonic devices in this context. The details of beam splitters as directional couplers and their significant function in quantum computing activities are then covered in detail. The finite-difference time-domain (FDTD) approach is a useful tool for simulating quantum systems, and it is covered in detail in this research. With an emphasis on FDTD's use in integrated photonic devices, the paper examines both its advantages and disadvantages, opening the door to more thorough simulations of quantum circuits. |
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Nam Donguk |
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Nam Donguk Muhammad Faris Zikri Bin Zainal |
| format |
Final Year Project |
| author |
Muhammad Faris Zikri Bin Zainal |
| author_sort |
Muhammad Faris Zikri Bin Zainal |
| title |
Integrated photonic devices for realizing photonic quantum computing: part 1: FDTD (quantum devices) |
| title_short |
Integrated photonic devices for realizing photonic quantum computing: part 1: FDTD (quantum devices) |
| title_full |
Integrated photonic devices for realizing photonic quantum computing: part 1: FDTD (quantum devices) |
| title_fullStr |
Integrated photonic devices for realizing photonic quantum computing: part 1: FDTD (quantum devices) |
| title_full_unstemmed |
Integrated photonic devices for realizing photonic quantum computing: part 1: FDTD (quantum devices) |
| title_sort |
integrated photonic devices for realizing photonic quantum computing: part 1: fdtd (quantum devices) |
| publisher |
Nanyang Technological University |
| publishDate |
2024 |
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https://hdl.handle.net/10356/176333 |
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