induced junction

简明释义

感应结

英英释义

例句

1.The efficiency of solar cells can be improved by optimizing the induced junction 诱导接合 formation process.

通过优化诱导接合形成过程，可以提高太阳能电池的效率。

2.By applying a voltage, we can create an induced junction 诱导接合 in the material.

通过施加电压，我们可以在材料中创建一个诱导接合。

3.In this experiment, the induced junction 诱导接合 was analyzed using advanced microscopy techniques.

在这个实验中，使用先进的显微技术分析了诱导接合。

4.The team discovered that the induced junction 诱导接合 could significantly enhance charge carrier mobility.

团队发现诱导接合可以显著增强电荷载流子的迁移率。

5.The researchers studied the properties of the induced junction 诱导接合 in semiconductor devices.

研究人员研究了半导体器件中诱导接合的性质。

作文

In the realm of semiconductor physics, the concept of an induced junction plays a crucial role in the functionality of various electronic devices. An induced junction refers to a boundary that is created within a semiconductor material when an external influence, such as an electric field or a chemical treatment, alters the charge carrier distribution. This phenomenon is essential for the operation of diodes, transistors, and other semiconductor devices, as it allows for the control of electrical current flow. To understand the significance of an induced junction, one must first grasp the basic structure of a semiconductor. Semiconductors are materials that have electrical conductivity between that of a conductor and an insulator. They are typically made from silicon or germanium and can be doped with impurities to create regions of positive (p-type) or negative (n-type) charge carriers. The interface between these two types of regions is known as a p-n junction, which is fundamental in the operation of many electronic components.However, an induced junction differs from a traditional p-n junction in that it is not formed through the conventional doping process. Instead, it is generated by applying an external influence that modifies the existing charge carrier distribution. For example, when a strong electric field is applied to a semiconductor, it can cause a redistribution of electrons and holes, effectively creating an induced junction. This process can enhance the performance of devices by allowing for more precise control over the electrical characteristics of the semiconductor.The applications of induced junctions are vast and varied. In modern electronics, they are used in the development of high-speed transistors, which are essential for the functioning of computers and communication devices. By utilizing induced junctions, engineers can design transistors that operate at higher frequencies and lower power levels, leading to more efficient electronic systems.Moreover, induced junctions are also significant in the field of optoelectronics, where they are employed in devices such as lasers and light-emitting diodes (LEDs). The ability to manipulate charge carrier distributions allows for improved light emission properties, making induced junctions vital for the advancement of lighting and display technologies.In conclusion, the concept of an induced junction is integral to the field of semiconductor technology. It represents a method of creating junctions through external influences rather than traditional doping techniques. This innovation has led to significant advancements in electronic and optoelectronic devices, enhancing their performance and efficiency. As technology continues to evolve, the understanding and application of induced junctions will undoubtedly remain a key area of research and development in the pursuit of more advanced electronic systems.

在半导体物理学领域，诱导结的概念在各种电子设备的功能中起着至关重要的作用。诱导结是指当外部影响（如电场或化学处理）改变载流子分布时，在半导体材料内部创建的边界。这种现象对于二极管、晶体管和其他半导体设备的操作至关重要，因为它允许控制电流的流动。要理解诱导结的重要性，首先必须掌握半导体的基本结构。半导体是一种电导率介于导体和绝缘体之间的材料。它们通常由硅或锗制成，并可以通过掺杂杂质来创建正（p型）或负（n型）载流子区域。这两种类型区域之间的界面被称为p-n结，它是许多电子元件运作的基础。然而，诱导结与传统的p-n结不同，因为它不是通过常规的掺杂过程形成的。相反，它是通过施加外部影响来生成的，这种影响改变了现有的载流子分布。例如，当对半导体施加强电场时，它可以导致电子和空穴的重新分布，从而有效地创建一个诱导结。这一过程可以通过更精确地控制半导体的电特性来增强设备的性能。诱导结的应用广泛而多样。在现代电子学中，它们用于开发高速晶体管，这对于计算机和通信设备的功能至关重要。通过利用诱导结，工程师可以设计在更高频率和更低功耗下工作的晶体管，从而导致更高效的电子系统。此外，诱导结在光电电子学领域也具有重要意义，它们被用于激光器和发光二极管（LED）等设备中。操控载流子分布的能力使得光发射特性得以改善，这使得诱导结对于照明和显示技术的发展至关重要。总之，诱导结的概念对于半导体技术领域至关重要。它代表了一种通过外部影响而非传统掺杂技术创建结的方法。这一创新推动了电子和光电设备的重大进步，提高了它们的性能和效率。随着技术的不断发展，对诱导结的理解和应用无疑将继续成为研究和开发的关键领域，以追求更先进的电子系统。