optoelectronics

简明释义

[ˌɒptəʊɪlekˈtrɒnɪks][ˌɑːptoʊˌɪlekˈtrɑːnɪks]

n. 光电学,[物][电子] 光电子学

英英释义

Optoelectronics is a branch of technology that deals with the interaction between light and electronic devices, particularly the generation and detection of light.

光电学是一个技术领域,涉及光与电子设备之间的相互作用,特别是光的产生和探测。

单词用法

optoelectronics applications

光电子应用

advancements in optoelectronics

光电子学的进展

optoelectronics industry

光电子产业

optoelectronics components

光电子元件

optoelectronics research

光电子学研究

optoelectronics systems

光电子系统

optoelectronics materials

光电子材料

optoelectronics engineering

光电子工程

同义词

photonics

光子学

Photonics is a field that encompasses the generation, manipulation, and detection of photons.

光子学是一个涵盖光子的生成、操控和检测的领域。

optical electronics

光电子学

Optical electronics combines optical and electronic technologies to create advanced devices.

光电子学结合了光学和电子技术,以创造先进的设备。

反义词

electronics

电子学

The study of electronics is crucial for understanding modern technology.

电子学的研究对于理解现代技术至关重要。

mechanics

机械学

Mechanics plays a significant role in engineering applications.

机械学在工程应用中发挥着重要作用。

例句

1.Along with development of computer technology, optics and optoelectronics, new methods of 3-d sensing are emerging.

随着计算机技术、光学和光电子技术的飞速发展,新的光学三维传感和计量方法也不断进步。

2.These glasses may be widely used in the field of optoelectronics.

它们可以被广泛的应用于光电子领域。

3.The principles were described in detail in this paper. Moreover, the applications in micro-electronics, optoelectronics and sensors areas were illustrated.

文中详细介绍了该技术的原理,并对该技术在微电子、光电子以及传感器领域的应用进行了举例说明。

4.The materials of semiconductor hetero-epitaxy and quantum dots are widely used in the fields such as nano-electronics and optoelectronics.

半导体异质外延材料和量子点材料在纳米电子学、光电子学中具有广泛的应用前景。

5.The state and trend of Electronic Glass Technology applied in optical communication and optoelectronics is presented.

介绍了电子玻璃在光通信领域,光电子领域等方面的应用现状及发展前景。

6.Nanostructured materials are expected to play a crucial role in the future technological advance in electronics, optoelectronics, and memory devices.

纳米结构材料在电子学、光电子学及存储器件等领域具有深远的应用前景。

7.The two methods are useful for screening and optimizing the packaging of high-speed optoelectronics devices.

两方法可为筛选光电子器件封装提供依据,并为优化封装的设计提供参考。

8.Researchers are exploring the use of optoelectronics in renewable energy applications.

研究人员正在探索光电学在可再生能源应用中的使用。

9.Companies are investing in optoelectronics to enhance their product offerings in the tech market.

公司正在投资于光电学以增强其在科技市场的产品供应。

10.Many modern devices, such as smartphones, rely heavily on optoelectronics for their displays.

许多现代设备,如智能手机,严重依赖于光电学来实现其显示功能。

11.The integration of optoelectronics into medical devices has improved diagnostic capabilities.

光电学集成到医疗设备中提高了诊断能力。

12.The field of optoelectronics is rapidly advancing, leading to new technologies in communication.

领域中的光电学正在迅速发展,带来了通信技术的新进展。

作文

Optoelectronics is a fascinating field that combines the principles of optics and electronics to create devices that manipulate and utilize light. This interdisciplinary area has become increasingly important in modern technology, influencing various sectors such as telecommunications, medicine, and consumer electronics. The term 'optoelectronics' refers to the study and application of electronic devices that source, detect, and control light. In essence, it encompasses a wide range of technologies that involve both light and electrical signals.One of the most significant applications of optoelectronics (光电学) is in the realm of telecommunications. Fiber optic communication systems rely heavily on optoelectronics (光电学) to transmit data over long distances with minimal loss. By converting electrical signals into light pulses, these systems can achieve high bandwidths and faster data transmission rates compared to traditional copper cables. This has revolutionized how we communicate, enabling the internet and global connectivity we often take for granted today.In addition to telecommunications, optoelectronics (光电学) plays a crucial role in medical technology. Devices such as laser surgery equipment, optical imaging systems, and phototherapy tools all depend on the principles of optoelectronics (光电学). For instance, lasers are used in various surgical procedures due to their precision and ability to minimize damage to surrounding tissues. Furthermore, optical imaging techniques, such as endoscopy, allow doctors to visualize internal organs with minimal invasiveness, leading to better diagnosis and treatment options.Consumer electronics also benefit significantly from advancements in optoelectronics (光电学). Light-emitting diodes (LEDs), which are widely used in displays and lighting, are a direct result of optoelectronics (光电学) research. The development of organic LEDs (OLEDs) has further enhanced display technology, providing brighter colors and energy efficiency. Additionally, the integration of optoelectronics (光电学) in smartphones, tablets, and other devices has led to improved camera functionalities, allowing users to capture high-quality images and videos in various lighting conditions.The future of optoelectronics (光电学) looks promising, with ongoing research aimed at developing new materials and technologies. Innovations such as quantum dot lasers and photonic crystals are paving the way for more efficient and versatile devices. These advancements could lead to breakthroughs in areas like quantum computing and advanced imaging systems, further expanding the applications of optoelectronics (光电学).In conclusion, optoelectronics (光电学) is a vital field that bridges the gap between light and electronics, enabling numerous technological advancements that enhance our daily lives. Its impact on telecommunications, medical technology, and consumer electronics cannot be overstated. As research continues to evolve, we can expect even more exciting developments in optoelectronics (光电学) that will shape the future of technology and improve our quality of life.