火石玻璃

以LED作光源、PIN作接收、火石玻璃为磁感应材料、多模光纤作导光波导的混合型大电流光纤传感器，用于监视高压电网系统中的电流。

The hybrid large current fiber sensor consists of a LED as light sourse , PIN as light receiver , flint glass as magnetic inductor and multimode fiber as light conductor .

该声光Q开关采用重火石玻璃作声光介质，其互作用长度仅为15mm，衍射效率高达80%，插入损耗仅为8%。

This A-O Q-swith uses the dense flint glass as the A-O medium . It has an A-O interactive length of 15 mm and the diffraction efficiency is up to 80 % , but the insertion loss is only 8 % .

本设计成功的关键在于对双胶、双分透镜组来说，打破了常规地选用火石玻璃－火石玻璃（F－F）的组合；

The successful key consists in the double adhesive and double separate lens which select flint flint ( F F ) the combination ;

为了加深对灵敏度问题的理解，这里以琼斯矩阵为数学工具，利用理论分析和计算机仿真的方法研究了重火石玻璃的Verdet常数色散特性及其对块状玻璃光学电流传感器灵敏度的影响。

The dispersion properties of the Verdet constant of the ZF-7 optical glass and its effect upon the ( sensitivity ) of a bulk-glass optical current sensor are theoretically analyzed using the Jones ' matrix as a mathematical tool and computer simulation .

低热光常数火石玻璃熔制工艺的探讨

The Melting Technology Inquiry for " Athermalized " Flint Glass

特种火石玻璃单坩埚漏料工艺研究

Dropping Technology of a Single Pot Used for Melting Special Flint Optical Glass es

透镜望远镜，或称折射望远镜，在人们能够制造出高质量的火石玻璃透镜以后得到了很大的改进。

The lens telescope , or refractor , was vastly improved when it became possible to manufacture high-quality lenses made from flint glass .

我们用火石玻璃作为法拉第旋转材料，用多模光纤作为光信号的传导材料构成混合型光纤电流传感器。

A hybrid fiber current sensor system has been built by using flint glass as Faradaymaterial and multimode fiber as conduct material of optical signal .

借助科希色散公式得到膜系材料在红外波段下的折射率，分别以重火石ZF-7玻璃、K9玻璃为基底材料给出了相应的红外波段消偏振膜系。

According to Cauchy 's dispersion formula , refractive indices of film materials are obtained . For different glass substrates , such as ZF-7 glass and K9 glass , NPBSs in infrared band are investigated , respectively .

火石光学玻璃二次熔炼中的铂铑着色

Coloration of Pt and Rh in the Secondary Melting of Flint Optical Glass

确定了二次熔炼后的火石光学玻璃产生的着色或光吸收增加，是由于铂铑坩埚中铂铑金属转变为离子态进入玻璃产生的。

It was confirmed that the color produced in secondary melting was due to the transformation of metallic Pt , Rh into ionic states .