birefringent
简明释义
英[ˌbaɪrɪˈfrɪndʒənt]美[ˌbaɪrɪˈfrɪndʒənt]
adj. [光] 双折射的
英英释义
单词用法
双折射效应 | |
双折射介质 | |
双折射光学 | |
分析双折射特性 | |
观察双折射图案 | |
测量双折射指数 |
同义词
| 双折射的 | The birefringent material showed different refractive indices depending on the polarization of light. | 该双折射材料根据光的极化方向显示出不同的折射率。 |
反义词
例句
1.It is proposed a new method to suppress PMD in birefringent optical fibers due to the limit of PMD compensation by use of soliton self trapping phenomenon.
利用双折射光纤中孤子自捕获现象可以抑制偏振模色散,但这种抑制技术对传输参量有严格的限制。
2.Linear birefringent effect is the primary factor that makes optical current transducer unpractical.
线性双折射效应是限制光学电流互感器实用化的关键因素。
3.A new structure of tunable polarization interference dense wavelength division multiplexing (DWDM) filter based on the analog birefringent module is presented.
提出了一种基于模拟双折射模块的可调谐偏振光干涉型密集波分复用滤波器(DWDM)的新结构。
4.The transmission curve of birefringent filter is given experimentally. Its transmission bandwidth is very narrow and all the sub-peaks are suppressed fewer than 10%.
通过实验给出了三元组合双折射滤光片的透射曲线,其透射光谱带宽较窄,次峰被抑制在10%以下。
5.The birefringent effect of K9 glass has been studied under low pressure. The index of birefringence and its gradient have been measured.
研究K9玻璃在低压下的双折射效应,测量它的双折射率及其梯度。
6.An exact solution for the nonlinear birefringent medium model is obtained by using SO(3) rotation group property.
本文利用SO(3)旋转群性质得到了非线性双折射介质模型的一个严格解。
7.The Berreman matrix method is applied to determine the transmission and reflection characteristics of birefringent thin films.
采用Berreman特征矩阵方法,通过数值计算研究了双折射薄膜的反射、透射等光谱响应特性。
8.The feasibility of the analog birefringent structure is verified through an experiment.
实验中,用单级模拟双折射模块验证了该结构的可行性。
9.The basic theory including simplified design process and reasonable material of birefringent prisms were introduced, and the system structure was also well designed.
本文对偏振分光棱镜进行了理论分析,简化了其设计过程,选用了合理的材料,完善了系统结构。
10.The mineral calcite is known to be birefringent, meaning it splits light into two rays.
矿物方解石被认为是双折射的,这意味着它将光分成两束。
11.Many synthetic fibers are birefringent, which affects their optical properties.
许多合成纤维是双折射的,这会影响它们的光学特性。
12.The use of birefringent filters can enhance the contrast in polarized light microscopy.
使用双折射的滤光片可以增强偏振光显微镜中的对比度。
13.Research on birefringent crystals has applications in telecommunications.
对双折射晶体的研究在电信中有应用。
14.In optical microscopy, birefringent materials can produce unique interference patterns.
在光学显微镜中,双折射的材料可以产生独特的干涉图案。
作文
Birefringent materials have unique optical properties that make them fascinating subjects of study in the field of physics and engineering. These materials are characterized by their ability to split a beam of light into two distinct rays, each traveling at different speeds and with different polarization states. This phenomenon occurs due to the anisotropic nature of the material, meaning that its optical properties vary depending on the direction of the light passing through it. The term birefringent (双折射的) is derived from the Latin words 'bi' meaning 'two' and 'refringere' meaning 'to break'. As such, birefringent materials can be found in various natural and synthetic forms, including crystals like calcite and quartz, as well as certain polymers and liquid crystals.The study of birefringent (双折射的) materials has significant implications across multiple disciplines. In optics, understanding how these materials manipulate light can lead to advancements in imaging technology, such as polarizing filters used in photography and LCD screens. For instance, when light passes through a birefringent (双折射的) crystal, it is divided into two rays: the ordinary ray and the extraordinary ray. The ordinary ray behaves according to Snell's law, while the extraordinary ray does not, resulting in unique visual effects that can enhance image quality or create artistic representations.In the field of geology, birefringent (双折射的) minerals provide crucial information about the composition and formation processes of rocks. Geologists often utilize polarized light microscopy to examine thin sections of rock samples. By observing how light interacts with birefringent (双折射的) minerals, they can deduce the mineral's properties, such as its refractive index and crystal structure. This information is vital for understanding geological history and the conditions under which the rocks formed.Moreover, in the realm of biology, researchers are increasingly recognizing the importance of birefringent (双折射的) materials in biological systems. Certain cellular components, such as collagen fibers and muscle tissues, exhibit birefringence. By employing techniques like polarized light microscopy, scientists can study the structural organization of these components within cells and tissues, leading to insights into various biological functions and disease mechanisms.The applications of birefringent (双折射的) materials extend beyond scientific research; they also play a pivotal role in technology and industry. For example, in telecommunications, birefringent (双折射的) optical fibers are utilized to improve signal transmission and reduce losses. The unique properties of these fibers allow for the manipulation of light signals, enhancing data transfer rates and communication efficiency.In conclusion, the exploration of birefringent (双折射的) materials unveils a myriad of possibilities across various fields. From improving imaging technologies to advancing our understanding of geological and biological systems, the significance of birefringent (双折射的) materials cannot be overstated. As research continues to evolve, we can anticipate even more innovative applications and discoveries that leverage the remarkable properties of these unique substances.
