本文研制了一种实用化石英光纤球形头。
This paper mainly discusses the research of a new-type quartz fiber spherical probe.
石英光纤导光性更好,韧性更强减少人为损坏可能性;
Quartz fiber has a better optical conductivity and stronger toughness, that reduces probability of artificial damage.
我们已观察到几种在普通石英光纤中不曾观察到的非线性效应。
We have observed a few nonlinear effects which have not been observed in general fusion quartz fiber before.
并测试了紫外激光脉冲经过单模纯石英光纤传输后的脉冲波形。
The pulse profiles were measured after the ultraviolet pulse propagating a single-mode pure silica fiber.
本文阐述了单模塑料光纤和单模石英光纤的自动耦合的原理及其实现。
The principle and realization of auto-coupling system for single-mode POF and silica fiber is introduced in this paper.
在光纤表面粗化后增加热处理工序可以克服石英光纤表面难以活化的问题。
Using this procedure, the problem in the activation of quartz naked optical fiber surfaces can be easily solved.
石英光纤表面金属化有多种方法可以实现,化学镀的方法明显优于其他方法。
There were many ways to achieve metallization of quartz optical fiber surface, and electroless plating was obviously superior to other methods.
本文报道了对大芯径石英光纤中皮秒脉冲激光自聚焦现象的实验研究和理论分析。
In this paper, experimental observation and theoretical analysis of self-focusing of picosecond laser pulses in large-core silica fibers are reported.
接下来讨论了石英光纤的布里渊增益特性,为后续的计算工作奠定理论上的基础。
After that, we discuss the silica fiber's Brillouin scatter in order to found a theory basis for the following work.
自从空芯石英光纤产生以来,因其对光有累积作用而被用来实现连续激光受激拉曼散射过程。
Because scattering light are cumulated by liquid-core optical fiber (LCOF), it has been used to achieve cw SRS process.
讨论了激光脉冲在熔石英光纤中传输的物理过程,给出了能够改变激光脉冲强度的线性和非线性因素。
The physical processes of laser pulse propagation in fused-silica fibers are discussed, focuses on the linear and nonlinear properties of optical fiber that alter the intensity of laser pulses.
提出了一种光纤结构的光学双稳态实验装置,利用石英光纤的光弹效应实现了压光调制,并完成了双稳实验。
A kind of all-fiber structure optical bistable experiment device was designed. Based on elastic -optic effect of silica fiber we accomplished optical bistable experiment.
针对小范围内水下激光爆炸所产生的等离子体冲击波检测问题,对单模石英光纤探针探测方法进行了初步实验研究。
Aiming at solving the detective problem of laser-induced plasma shock-wave underwater in small domain, a method of single mode quartz fiber probe has been studied on experiment preliminarily.
采用经钨带灯标准光源标定的多道石英光纤光学系统,测量了HL-1装置等离子体可见光波段轫致辐射功率的径向分布。
Using a multichannel quartz optical-fiber system calibrated with a standard tungsten strip lamp, the radial profiles of the visible bremsstrahlung radiation power in the HL-1 tokamak were measured.
除了用作紫外光传输的高成本石英光纤之外,通常,这些生物传感器的稳定性都很差,容易和周围的环境光线产生相互干涉。
These biosensors have usually poor stability and are prone to interference from environmental light, apart the high cost of quartz optical fibers for UV light transmission.
其折射率比传统用作光纤的石英的折射率高,对光有较好的约束性能,因此在光波导方面可能会有更好的应用前景。
Its refractive index is higher than that of the traditional optical fiber material, silica, so silicon nitride has good optics confinement property.
热极化方法可在熔石英熊猫保偏光纤器件中产生线性电光效应,由此可制成热极化光纤器件。
Thermal poling method can create linear electrooptic effect in the fused silica PANDA fiber, which can be used for thermal poled fiber devices.
熔石英中的材料吸收、色散和三阶非线性效应是光纤中影响光传输的主要因素。
The major phenomena that affect propagation through fiber are material absorption, dispersion, and nonlinear x(3) effects associated with fused-silica.
首先,针对实际系统中所用的光纤陀螺、石英挠性加速度计组件,分别建立了相应的静态误差模型。
Above all, according to the FOG and quartz accelerometer adopted in navigation system, the static error models of IMU (Inertial Measurement Units) are built up.
采用ep—6a、水泥、石英砂调配的复合胶粘材料进行光纤与混凝土的胶结实验研究。
The experiment study on cementation between fiber and concrete face plate was finished by using composite cementation material which was composed of EP_6A, cement and quartz sand.
为产生中红外波段的超连续谱,须使用在该波段具有高透过率的非石英材料来拉制光纤或微结构光纤。
Non-silica glass materials are good candidates for fabricating microstructured fibers used for mid-IR supercontinuum generation because of their high transmittance in the region.
由于强的红外吸收,石英玻璃材料拉制成的光纤或微结构光纤在中红外波段的传输损耗很大。
Microstructured fibers made of silica undergo high loss in transmission due to the intrinsic material absorption in mid-infrared region.
由于强的红外吸收,石英玻璃材料拉制成的光纤或微结构光纤在中红外波段的传输损耗很大。
Microstructured fibers made of silica undergo high loss in transmission due to the intrinsic material absorption in mid-infrared region.
应用推荐