trichroism

简明释义

英[ˈtraɪkroʊɪzəm]美[ˈtraɪkroʊɪzəm]

三色性

三色现象

英英释义

单词用法

同义词

反义词

例句

1.Cutter must adjust the rough area carefully, to take the gray, blue and colorless out of its trichroism.

刀具必须调整粗糙地区认真，采取灰色，蓝色和无色出其。

2.Trichroism . As of now, no such treatment has been used successfully to lessen or remove color, that is why you can always be sure that they are not treated.

截至目前，没有这种治疗已被成功地用来减轻或消除的颜色，这就是为什么你总是可以确保他们未得到治疗。

3.Trichroism . As of now, no such treatment has been used successfully to lessen or remove color, that is why you can always be sure that they are not treated.

截至目前，没有这种治疗已被成功地用来减轻或消除的颜色，这就是为什么你总是可以确保他们未得到治疗。

4.Jewelry designers often seek out stones with trichroism for their unique visual appeal.

珠宝设计师常常寻找具有三色性的宝石，以其独特的视觉吸引力。

5.In mineralogy, trichroism is an important characteristic that helps in identifying certain minerals.

在矿物学中，三色性是帮助识别某些矿物的重要特征。

6.The gemstone exhibits trichroism, showing three different colors when viewed from different angles.

这颗宝石表现出三色性，从不同角度看时显示出三种不同的颜色。

7.When studying trichroism, one must consider the orientation of the crystal.

在研究三色性时，必须考虑晶体的方向。

8.The presence of trichroism can indicate the crystal structure of a mineral.

存在三色性可能表明矿物的晶体结构。

作文

Trichroism is a fascinating optical phenomenon that occurs in certain crystals, allowing them to display three different colors when viewed from different angles. This unique property can be attributed to the anisotropic nature of these materials, which means that their physical properties vary depending on the direction of observation. One of the most well-known examples of a mineral exhibiting trichroism (三色性) is tourmaline, a gemstone that can show different hues such as green, blue, and yellow when rotated. Understanding trichroism (三色性) not only enhances our appreciation of these beautiful stones but also provides insight into the underlying structural characteristics of the minerals themselves.The phenomenon of trichroism (三色性) has significant implications in various fields, including geology, mineralogy, and even art. In geology, the study of trichroism (三色性) helps geologists identify and classify minerals based on their optical properties. By examining how light interacts with these minerals, scientists can deduce valuable information about their composition and formation processes. For instance, the presence of trichroism (三色性) in a mineral sample can indicate the conditions under which it was formed, such as temperature and pressure.In the realm of art and design, trichroism (三色性) plays a crucial role in the selection of materials for jewelry and decorative objects. Jewelers often seek out gemstones that exhibit this property to create pieces that change color and appearance based on the viewer's perspective. This dynamic quality adds an element of intrigue and uniqueness to the jewelry, making it highly desirable among collectors and enthusiasts.Moreover, trichroism (三色性) is not limited to natural minerals; it can also be observed in synthetic materials. Scientists and engineers have developed various polymers and glasses that exhibit trichroism (三色性), which can be utilized in optical devices and displays. These advancements open up new possibilities for technology, enhancing visual experiences in everything from smartphones to televisions.In conclusion, trichroism (三色性) is a remarkable optical characteristic that enriches our understanding of the natural world and influences various industries. Whether in the study of minerals or the creation of stunning jewelry, this phenomenon captivates both scientists and artists alike. As we continue to explore the intricacies of trichroism (三色性), we uncover not only the beauty of the materials around us but also the complex interactions between light and matter that shape our perceptions.

三色性是一种迷人的光学现象，发生在某些晶体中，使它们在不同角度观察时显示出三种不同的颜色。这个独特的特性可以归因于这些材料的各向异性特征，这意味着它们的物理性质根据观察方向的不同而变化。最著名的一个例子是电气石，一种宝石，当旋转时可以呈现出绿色、蓝色和黄色等不同色调。理解三色性不仅增强了我们对这些美丽宝石的欣赏，还提供了对矿物自身结构特征的深入了解。三色性在地质学、矿物学甚至艺术等多个领域具有重要意义。在地质学中，三色性的研究帮助地质学家根据光学性质识别和分类矿物。通过检查光如何与这些矿物相互作用，科学家可以推断出关于其成分和形成过程的有价值信息。例如，样本中三色性的存在可以指示出它形成时的条件，如温度和压力。在艺术和设计领域，三色性在珠宝和装饰物料的选择中发挥着关键作用。珠宝商通常寻找展现这一特性的宝石，以创造出根据观察者的视角变化颜色和外观的作品。这种动态特质为珠宝增添了神秘感和独特性，使其在收藏家和爱好者中备受追捧。此外，三色性不仅限于天然矿物；它也可以在合成材料中观察到。科学家和工程师开发了各种展现三色性的聚合物和玻璃，可以用于光学设备和显示器。这些进步为技术开辟了新的可能性，增强了从智能手机到电视的视觉体验。总之，三色性是一种显著的光学特性，丰富了我们对自然世界的理解，并影响着多个行业。无论是在矿物研究还是在制作令人惊叹的珠宝中，这一现象都吸引着科学家和艺术家的关注。随着我们继续探索三色性的复杂性，我们不仅揭示了周围材料的美丽，还揭示了塑造我们感知的光与物质之间复杂的相互作用。