A long-distance underwater laser communication system with photon-counting receiver
We design and demonstrate a long-distance underwater optical communication system with photon-counting receiver. Monte-Carlo simulations are conducted to determine system parameters and estimate system performance. According to the simulation results, a Q-switched all solid state 532nm laser with pu...
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| Published in | 2017 16th International Conference on Optical Communications and Networks (ICOCN) pp. 1 - 3 |
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| Main Authors | , , , , |
| Format | Conference Proceeding |
| Language | English |
| Published |
IEEE
01.08.2017
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| Subjects | |
| Online Access | Get full text |
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| Abstract | We design and demonstrate a long-distance underwater optical communication system with photon-counting receiver. Monte-Carlo simulations are conducted to determine system parameters and estimate system performance. According to the simulation results, a Q-switched all solid state 532nm laser with pulse energy of 100uJ@10kHz is used as the optical source of transmitter. A telescope with 1° field of view, 100mm clear aperture, and a photon counting detector is used to collect the laser in the photon-counting receiver. We then present an experimental implementation in a long tank filled with clean water. The experimental results show that optical communication is established over a distance of 85m(~24 optical attenuation lengths) at a data rate of 80kbps. |
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| AbstractList | We design and demonstrate a long-distance underwater optical communication system with photon-counting receiver. Monte-Carlo simulations are conducted to determine system parameters and estimate system performance. According to the simulation results, a Q-switched all solid state 532nm laser with pulse energy of 100uJ@10kHz is used as the optical source of transmitter. A telescope with 1° field of view, 100mm clear aperture, and a photon counting detector is used to collect the laser in the photon-counting receiver. We then present an experimental implementation in a long tank filled with clean water. The experimental results show that optical communication is established over a distance of 85m(~24 optical attenuation lengths) at a data rate of 80kbps. |
| Author | Tianhua Zhou Siqi Hu Le Mi Weibiao Chen Xiaolei Zhu |
| Author_xml | – sequence: 1 surname: Tianhua Zhou fullname: Tianhua Zhou organization: Key Lab. of Space Laser Commun. & Detection Technol., Shanghai Inst. of Opt. & Fine Mech., Shanghai, China – sequence: 2 surname: Siqi Hu fullname: Siqi Hu email: siomzth@siom.ac.cn organization: Key Lab. of Space Laser Commun. & Detection Technol., Shanghai Inst. of Opt. & Fine Mech., Shanghai, China – sequence: 3 surname: Le Mi fullname: Le Mi organization: Key Lab. of Space Laser Commun. & Detection Technol., Shanghai Inst. of Opt. & Fine Mech., Shanghai, China – sequence: 4 surname: Xiaolei Zhu fullname: Xiaolei Zhu organization: Key Lab. of Space Laser Commun. & Detection Technol., Shanghai Inst. of Opt. & Fine Mech., Shanghai, China – sequence: 5 surname: Weibiao Chen fullname: Weibiao Chen organization: Key Lab. of Space Laser Commun. & Detection Technol., Shanghai Inst. of Opt. & Fine Mech., Shanghai, China |
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| Snippet | We design and demonstrate a long-distance underwater optical communication system with photon-counting receiver. Monte-Carlo simulations are conducted to... |
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| SubjectTerms | Lasers Monte Carlo methods Monte-Carlo simulation Optical fiber communication Optical receivers Optical transmitters Photon-counting Receiver Photonics Underwater Laser Communication |
| Title | A long-distance underwater laser communication system with photon-counting receiver |
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