solid state

简明释义

固体

英英释义

A state of matter characterized by a fixed shape and volume, where the particles are closely packed together and vibrate in place.

一种物质状态,具有固定的形状和体积,其中粒子紧密排列并在原地振动。

In electronics, it refers to devices that utilize semiconductor materials to perform functions such as amplification or switching without moving parts.

在电子学中,指利用半导体材料执行放大或开关等功能而不使用运动部件的设备。

例句

1.Many modern smartphones are equipped with solid state 固态 storage to enhance speed.

许多现代智能手机配备了固态 solid state 存储以增强速度。

2.In a solid state 固态 drive, data is stored on flash memory chips.

固态 solid state 驱动器中,数据存储在闪存芯片上。

3.The solid state 固态 battery technology is revolutionizing electric vehicles.

固态 solid state 电池技术正在革新电动汽车。

4.Engineers are developing solid state 固态 sensors for more reliable measurements.

工程师们正在开发固态 solid state 传感器,以获得更可靠的测量。

5.The new computer uses solid state 固态 drives for faster performance.

这台新电脑使用了固态 solid state 硬盘以提高性能。

作文

The term solid state refers to a distinct phase of matter characterized by its structural rigidity and resistance to changes in shape or volume. Unlike liquids and gases, which can flow and adapt to their containers, materials in the solid state maintain a fixed shape and volume under normal conditions. This property is crucial in various fields, especially in physics and engineering, where understanding the behavior of solid state materials can lead to significant advancements. In the realm of electronics, the solid state revolution has transformed the industry. Traditional vacuum tubes, once the backbone of electronic devices, have largely been replaced by solid state components such as transistors and diodes. These solid state devices are smaller, more efficient, and more reliable than their predecessors. For instance, the invention of the transistor marked a pivotal moment in technology, enabling the miniaturization of circuits and paving the way for modern computing. Another fascinating aspect of solid state technology is its application in storage devices. Hard drives, which utilize magnetic storage, are gradually being supplanted by solid state drives (SSDs). SSDs offer faster data access speeds, reduced power consumption, and greater durability because they lack moving parts. This shift from traditional hard drives to solid state drives highlights the importance of solid state technology in enhancing the performance and reliability of digital devices. Moreover, the study of solid state physics has led to the discovery of new materials with unique properties. For example, superconductors are a class of solid state materials that can conduct electricity without resistance when cooled to very low temperatures. This phenomenon has vast implications for energy transmission and storage, potentially leading to more efficient power grids and advanced technologies. The significance of solid state materials extends beyond electronics and physics. In the field of chemistry, understanding the solid state of compounds can provide insights into their reactivity and stability. For instance, many pharmaceuticals are developed in a solid state, and their effectiveness can be influenced by their crystalline structure. Therefore, researchers often study the solid state characteristics of drugs to optimize their formulation and delivery. In conclusion, the concept of solid state encompasses a wide range of applications and implications across various scientific fields. From revolutionizing electronics to advancing materials science, the study and utilization of solid state materials continue to play a critical role in technological progress. As we move forward, it is essential to further explore the potential of solid state innovations, which hold the promise of shaping our future in countless ways.

术语solid state指的是一种独特的物质相,其特征是结构刚性和对形状或体积变化的抵抗。与液体和气体不同,液体和气体可以流动并适应其容器,而处于solid state的材料在正常条件下保持固定的形状和体积。这一特性在多个领域至关重要,尤其是在物理学和工程学中,理解solid state材料的行为可以带来重大的进步。在电子学领域,solid state革命改变了整个行业。传统的真空管曾是电子设备的支柱,但现在大部分已被solid state组件如晶体管和二极管所取代。这些solid state设备比其前身更小、更高效且更可靠。例如,晶体管的发明标志着技术的一个关键时刻,使电路的小型化成为可能,并为现代计算奠定了基础。另一个有趣的方面是solid state技术在存储设备中的应用。硬盘驱动器利用磁性存储,逐渐被solid state驱动器(SSD)所取代。由于没有活动部件,SSD提供更快的数据访问速度、降低的功耗和更大的耐用性。这种从传统硬盘到solid state驱动器的转变突显了solid state技术在提升数字设备性能和可靠性方面的重要性。此外,对solid state物理的研究导致了新材料的发现,这些材料具有独特的性质。例如,超导体是一类solid state材料,当冷却到非常低的温度时,可以无阻力地导电。这一现象对能源传输和存储具有广泛的影响,可能导致更高效的电网和先进技术的发展。solid state材料的重要性不仅限于电子学和物理学。在化学领域,理解化合物的solid state可以提供有关其反应性和稳定性的见解。例如,许多药物以solid state形式开发,其有效性可能受到晶体结构的影响。因此,研究人员通常研究药物的solid state特性,以优化其配方和递送。总之,solid state的概念涵盖了多个科学领域的广泛应用和影响。从彻底改变电子学到推进材料科学,solid state材料的研究和利用继续在技术进步中发挥关键作用。随着我们向前发展,进一步探索solid state创新的潜力至关重要,这些创新承诺以无数方式塑造我们的未来。