A polymer waveguide Y-branch power splitter with loss compensation is proposed based on NaYF4:Er^3+, Yb^3+ nanocrystals prepared by a high temperature thermal decomposition method. The Y-branch power splitter is desig...A polymer waveguide Y-branch power splitter with loss compensation is proposed based on NaYF4:Er^3+, Yb^3+ nanocrystals prepared by a high temperature thermal decomposition method. The Y-branch power splitter is designed as a structure of embedded waveguide, and its core material is nanocrystals-doped SU-8. The insertion loss of the device is ~ 15 dB. For an input signal power of 0.05 mW and a pump power of 267.7 mW, the two branches with 5.81-dB and5.41-dB loss compensations at 1530 nm are achieved respectively. A polymer waveguide Y-branch power splitter with loss compensation has an important research significance.展开更多
A polymer waveguide thermo-optical switch with loss compensation based on NaYF_4: 18% Yb^(3+), 2% Er^(3+)nanocrystals, fabricated by traditional semiconductor processes, has been investigated. NaYF4: 18% Yb^(...A polymer waveguide thermo-optical switch with loss compensation based on NaYF_4: 18% Yb^(3+), 2% Er^(3+)nanocrystals, fabricated by traditional semiconductor processes, has been investigated. NaYF4: 18% Yb^(3+), 2% Er^(3+)nanocrystals were prepared by a pyrolysis method. The morphology and luminescent properties of the nanocrystals were characterized.The nanocrystals were doped into SU-8 as the core material of an optical waveguide amplifier. The size of the device was optimized for its optical and thermal fields as well as its transmission characteristics. The device was fabricated on a silica substrate by spin coating, photolithography, and wet etching. The insertion loss of the switch device is~15 dB. The rise and fall times of the device are 240 μs and 380 μs, respectively, as measured by application of a 304 Hz square wave voltage. The extinction ratio of the device is about 14 dB at an electrode-driving power of 7 mW. When the pump light power is 230 mW and the signal light power is 0.1 mW, the loss compensation of the device is 3.8 dB at a wavelength of1530 nm. Optical devices with loss compensation have important research significance.展开更多
基金Project supported by the Science and Technology Innovation Development Plan of Jilin City,China(Grant No.201830793)the Science and Technology Development Plan of Jilin Province,China(Grant No.20190302010GX)
文摘A polymer waveguide Y-branch power splitter with loss compensation is proposed based on NaYF4:Er^3+, Yb^3+ nanocrystals prepared by a high temperature thermal decomposition method. The Y-branch power splitter is designed as a structure of embedded waveguide, and its core material is nanocrystals-doped SU-8. The insertion loss of the device is ~ 15 dB. For an input signal power of 0.05 mW and a pump power of 267.7 mW, the two branches with 5.81-dB and5.41-dB loss compensations at 1530 nm are achieved respectively. A polymer waveguide Y-branch power splitter with loss compensation has an important research significance.
基金Project supported by the National Natural Science Foundation of China(Grant Nos.61475061 and 61575076)
文摘A polymer waveguide thermo-optical switch with loss compensation based on NaYF_4: 18% Yb^(3+), 2% Er^(3+)nanocrystals, fabricated by traditional semiconductor processes, has been investigated. NaYF4: 18% Yb^(3+), 2% Er^(3+)nanocrystals were prepared by a pyrolysis method. The morphology and luminescent properties of the nanocrystals were characterized.The nanocrystals were doped into SU-8 as the core material of an optical waveguide amplifier. The size of the device was optimized for its optical and thermal fields as well as its transmission characteristics. The device was fabricated on a silica substrate by spin coating, photolithography, and wet etching. The insertion loss of the switch device is~15 dB. The rise and fall times of the device are 240 μs and 380 μs, respectively, as measured by application of a 304 Hz square wave voltage. The extinction ratio of the device is about 14 dB at an electrode-driving power of 7 mW. When the pump light power is 230 mW and the signal light power is 0.1 mW, the loss compensation of the device is 3.8 dB at a wavelength of1530 nm. Optical devices with loss compensation have important research significance.
