1) fused biconical taper fiber optic coupler
熔融拉锥耦合器
2) over fused-taper fiber coupler
熔融拉锥过度耦合器
3) fused-taper coupler
熔融锥式耦合器
4) fused biconical taper
熔融拉锥
1.
Viscoelastic modeling and analysis of optical fibre coupler in process of fused biconical taper;
光纤耦合器熔融拉锥粘弹性建模与分析
2.
Through the discussion of the key processing parameters in the fused biconical taper process,firstly the paper pointed out that this process was highly nonlinear and multi variable coupled.
分析了熔融拉锥过程的关键工艺参数,指出该过程是一个高度非线性、多变量耦合作用的复杂过程。
3.
Through theoretical and experimental research, the viscoelastic mechanical model of optical fiber coupler in the process of fused biconical taper was established, with which, the numerical analysis under non-uniform temperature field was realized.
基于理论与实验研究,建立了光纤耦合器熔融拉锥过程的粘弹流变力学模型,并给出了光纤耦合器非均匀温度场条件下的流变过程数值分析,获得了拉锥速度、熔融温度等流变工艺参数对器件应力分布与器件性能的影响规律。
5) fused taper
熔融拉锥
1.
The demodulation instrument is based on passive proportion demodulation method,which uses a fused taper component as the li.
解调仪基于无源比例解调原理,以熔融拉锥器件作为线性滤波器,采用锁相放大技术提取微弱信号,并利用单片机控制光纤Bragg光栅波长信息的采集、显示以及存储。
2.
Based on the improved fused taper technique,under the condition of slow change and a.
然后,在改进熔融拉锥技术的同时,保持慢变、绝热条件拉制出在80 mm长度范围内具有良好均匀性、半径为5μm的高质量微细光纤,在此基础上采用自缠绕法研制出半径仅为500μm,谐振效果明显加强的全光纤型微环谐振器,从而很好地解决了集成型微环谐振器较高的弯曲损耗和连接损耗问题。
3.
A portable and low-cost solution for FBG wavelength demodulation is proposed in this paper, which is based on passive proportion demodulation method with fused taper component as linear filter.
通过采用无源比例解调方法,以熔融拉锥器件作为线性滤波器,为光纤Bragg光栅的解调提供了一种便携式低成本解决方案。
6) fused tapering
熔融拉锥
1.
A closed-form solution is obtained under the boundary conditions and from the effective length of the fused zone for the fused tapering process.
根据体积守恒条件导出光纤熔融拉锥形状函数的微分方程,并由边界条件和有效熔融区长度参量获得方程显解。
补充资料:熔融
分子式:
CAS号:
性质:温度升高时,分子的热运动能增大,导致结晶破坏,物质由晶相变为液相的过程。熔融是一级相转变,熔融有热焓、熵和体积的增大。发生熔融的温度叫熔点或熔融温度。小分子晶体的熔点温度范围很窄(一般小于1℃),而聚合物由于结晶不完全;其熔融温度往往是一个较宽的范围(一般为10~20℃)。
CAS号:
性质:温度升高时,分子的热运动能增大,导致结晶破坏,物质由晶相变为液相的过程。熔融是一级相转变,熔融有热焓、熵和体积的增大。发生熔融的温度叫熔点或熔融温度。小分子晶体的熔点温度范围很窄(一般小于1℃),而聚合物由于结晶不完全;其熔融温度往往是一个较宽的范围(一般为10~20℃)。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条