摘要 :
We demonstrate 4-channel miniature solderable VCSEL-based optical modules with an integrated clock-data-recovery (CDR) circuitry for 100-Gb/s applications. We also propose to use a 1060-nm VCSEL-based optical link using the module...
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We demonstrate 4-channel miniature solderable VCSEL-based optical modules with an integrated clock-data-recovery (CDR) circuitry for 100-Gb/s applications. We also propose to use a 1060-nm VCSEL-based optical link using the module and a conventional OM2 fiber cable to reduce the total link cost. When operating the module by a bit stream of 28.05-Gb/s, 231-1 PRBS in the built link system, we observed a jitter margin of 0.49 U.I for any distance within 150 m.
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摘要 :
We demonstrate 4-channel miniature solderable VCSEL-based optical modules with an integrated clock-data-recovery (CDR) circuitry for 100-Gb/s applications. We also propose to use a 1060-nm VCSEL-based optical link using the module...
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We demonstrate 4-channel miniature solderable VCSEL-based optical modules with an integrated clock-data-recovery (CDR) circuitry for 100-Gb/s applications. We also propose to use a 1060-nm VCSEL-based optical link using the module and a conventional OM2 fiber cable to reduce the total link cost. When operating the module by a bit stream of 28.05-Gb/s, 231-1 PRBS in the built link system, we observed a jitter margin of 0.49 U.I for any distance within 150 m.
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摘要 :
These are presented in this power point: various different classes of fiber (capillary, ARF and PBGF) each with relative merits and drawbacks for specific applications; significant progress made over recent years in the developmen...
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These are presented in this power point: various different classes of fiber (capillary, ARF and PBGF) each with relative merits and drawbacks for specific applications; significant progress made over recent years in the development of HCF technology - both in terms of understanding and fabrication; increasing array of applications, with some e.g. power delivery and high power wavelength conversion, close to commercial deployment; current losses sufficient for some niche telecoms applications to be considered; prospects for ultralow loss remain, with new fiber designs and concepts still emerging and an exciting time in the development of the field.
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摘要 :
These are presented in this power point: various different classes of fiber (capillary, ARF and PBGF) each with relative merits and drawbacks for specific applications; significant progress made over recent years in the developmen...
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These are presented in this power point: various different classes of fiber (capillary, ARF and PBGF) each with relative merits and drawbacks for specific applications; significant progress made over recent years in the development of HCF technology - both in terms of understanding and fabrication; increasing array of applications, with some e.g. power delivery and high power wavelength conversion, close to commercial deployment; current losses sufficient for some niche telecoms applications to be considered; prospects for ultralow loss remain, with new fiber designs and concepts still emerging and an exciting time in the development of the field.
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摘要 :
We propose multimode fiber with a 30 μm-core and fluorine-doped cladding to achieve large bandwidth covering 850-940 nm. In experiment, Error-free 4×25 Gb/s SWDM transmission using commercial transceiver is demonstrated over 250...
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We propose multimode fiber with a 30 μm-core and fluorine-doped cladding to achieve large bandwidth covering 850-940 nm. In experiment, Error-free 4×25 Gb/s SWDM transmission using commercial transceiver is demonstrated over 250 meter-long fiber.
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摘要 :
We propose multimode fiber with a 30 μm-core and fluorine-doped cladding to achieve large bandwidth covering 850-940 nm. In experiment, Error-free 4×25 Gb/s SWDM transmission using commercial transceiver is demonstrated over 250...
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We propose multimode fiber with a 30 μm-core and fluorine-doped cladding to achieve large bandwidth covering 850-940 nm. In experiment, Error-free 4×25 Gb/s SWDM transmission using commercial transceiver is demonstrated over 250 meter-long fiber.
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摘要 :
Disordered optical fibers show novel waveguiding properties that can be used for various device applications, such as beam-multiplexed optical communications and endoscopic image transport. The quality of the transported image is ...
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Disordered optical fibers show novel waveguiding properties that can be used for various device applications, such as beam-multiplexed optical communications and endoscopic image transport. The quality of the transported image is shown to be comparable with or better than some of the best commercially available multicore image fibers with less pixelation and higher contrast. Progress and results, as well as ongoing efforts on the design, fabrication, and characterization of the disordered optical fibers will be discussed.
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摘要 :
Disordered optical fibers show novel waveguiding properties that can be used for various device applications, such as beam-multiplexed optical communications and endoscopic image transport. The quality of the transported image is ...
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Disordered optical fibers show novel waveguiding properties that can be used for various device applications, such as beam-multiplexed optical communications and endoscopic image transport. The quality of the transported image is shown to be comparable with or better than some of the best commercially available multicore image fibers with less pixelation and higher contrast. Progress and results, as well as ongoing efforts on the design, fabrication, and characterization of the disordered optical fibers will be discussed.
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摘要 :
Selective infiltration of air holes in photonic crystal fibers (PCFs) with functional materials can equip optical fiber devices with advanced functions. We propose a new method which enables precise selective infiltration of dual-...
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Selective infiltration of air holes in photonic crystal fibers (PCFs) with functional materials can equip optical fiber devices with advanced functions. We propose a new method which enables precise selective infiltration of dual-core PCF (DC-PCF) by using femtosecond laser micromachining. Through this proposed technique, we have successfully selective infiltrated single air hole with a diameter of 2.5μm inside a DC-PCF. This method is simple, precise and repeatable, and it provides great potential for fabricating advanced fiber devices using selective infiltration technique.
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摘要 :
Selective infiltration of air holes in photonic crystal fibers (PCFs) with functional materials can equip optical fiber devices with advanced functions. We propose a new method which enables precise selective infiltration of dual-...
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Selective infiltration of air holes in photonic crystal fibers (PCFs) with functional materials can equip optical fiber devices with advanced functions. We propose a new method which enables precise selective infiltration of dual-core PCF (DC-PCF) by using femtosecond laser micromachining. Through this proposed technique, we have successfully selective infiltrated single air hole with a diameter of 2.5µm inside a DC-PCF. This method is simple, precise and repeatable, and it provides great potential for fabricating advanced fiber devices using selective infiltration technique.
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