tunability

简明释义

英[/ˈtjuːnəˌbɪlɪti/]美[/ˈtjuːnəˌbɪlɪti/]

n. [物] 可调谐性

英英释义

单词用法

同义词

反义词

例句

1.The radiation frequency tunability of the relativistic klystron amplifier still depends on design of the extract cavity.

相对论速调管放大器辐射频率的可调性还取决于提取腔的设计。

2.A new passive device, plastic fiber grating, is proposed based on our researches on fiber grating tunability and plastic fibers.

在对光纤光栅调谐和塑料光纤的研究基础上，提出了一种新的无源器件——塑料光纤光栅。

3.The characteristics tunability of CO2 waveguide lasers have been analyzed theoretically and experimentally.

本文对CO_2波导激光器的可调谐性能进行了理论分析和实验研究。

4.The center frequency tunability characteristic of the filter is investigated as well.

研究了该滤波器的中心频率的可调谐特性。

5.The tunability of millimeter wave free electron laser was observed.

观察到了毫米波自由电子激光器的调谐特性。

6.The correlated spontaneous up conversion and down conversion photons exhibits a high beam brightness, small spatial divergence, and broad spectral tunability.

相关的自发参量上转换和下转换光子表现出光束亮度高、空间发散小以及在很宽频谱范围内可调谐等特点。

7.Most provisions for dynamic tunability (such as setting a debug mode) can seriously impact time efficiency by adding levels of indirection and increasing Numbers of branches.

动态可调整性的大部分条款(像是设置一个调试模式)会因为增加了间接的级别和分支的数量严重的冲击时间效率。

8.Most provisions for dynamic tunability (such as setting a debug mode) can seriously impact time efficiency by adding levels of indirection and increasing Numbers of branches.

动态可调整性的大部分条款(像是设置一个调试模式)会因为增加了间接的级别和分支的数量严重的冲击时间效率。

9.The tunability of VCO is normally provided by a variable capacitor. Achieving low phase noise requires a high-Q on-chip variable capacitor.

VCO的调谐能力通常由可变电容来实现，要获得低相位噪声，需要高Q值的片上可变电容。

10.Certain symmetry in the allocation of gain material leads to depletion of odd longitudinal modes that, in turn, increases the tunability range of the microlaser.

增益材料放置的对称性导致奇数阶纵模的损耗，从而增加了微激光器的调谐范围。

11.With enhanced tunability, the device can adapt to various environmental conditions.

凭借增强的可调性，该设备能够适应各种环境条件。

12.Engineers are excited about the tunability of the new material, which can be adjusted for different applications.

工程师们对这种新材料的可调性感到兴奋，因为它可以根据不同的应用进行调整。

13.The new software allows for greater tunability in the user interface, making it easier to customize settings.

这款新软件在用户界面上提供了更大的可调性，使得自定义设置变得更加简单。

14.The researchers focused on the tunability of the chemical reactions to improve yield.

研究人员专注于化学反应的可调性以提高产量。

15.The tunability of the laser frequency is crucial for precise measurements in scientific experiments.

激光频率的可调性对科学实验中的精确测量至关重要。

作文

In the realm of science and technology, the concept of tunability (可调性) has become increasingly significant. It refers to the ability to adjust or modify certain parameters of a system or material to achieve desired outcomes. This characteristic is particularly important in various fields such as materials science, optics, and electronics. The tunability (可调性) of a material can influence its properties, making it more versatile for different applications. For instance, in the development of new materials for electronic devices, researchers often seek to enhance the tunability (可调性) of electrical conductivity, allowing for better performance in circuits and components.One of the most striking examples of tunability (可调性) can be found in the field of photonics. Photonic devices, which manipulate light, rely heavily on the tunability (可调性) of their components. By adjusting the refractive index of materials, scientists can create devices that operate at specific wavelengths of light. This tunability (可调性) enables the development of advanced technologies such as lasers and optical sensors, which are pivotal in telecommunications and medical diagnostics.Moreover, the tunability (可调性) of systems can lead to innovations in renewable energy technologies. For example, solar cells with adjustable band gaps can optimize light absorption, improving their efficiency. Researchers are exploring ways to enhance the tunability (可调性) of these materials, enabling them to adapt to varying light conditions throughout the day. This adaptability not only maximizes energy capture but also contributes to the sustainability of solar energy solutions.In addition to its applications in materials and energy, tunability (可调性) plays a crucial role in biological systems. In synthetic biology, engineers design organisms with customizable traits by manipulating genetic pathways. The tunability (可调性) of gene expression allows for precise control over the production of proteins, leading to advancements in biotechnology and pharmaceuticals. This capability to fine-tune biological functions has the potential to revolutionize medicine, enabling targeted therapies and personalized treatments.Despite its advantages, the concept of tunability (可调性) also poses challenges. As researchers strive to create more adaptable systems, they must consider the complexities associated with maintaining stability and reliability. An overly tunable system may lead to unpredictable behaviors, making it difficult to achieve consistent results. Therefore, balancing tunability (可调性) with robustness is a critical aspect of ongoing research in various disciplines.In conclusion, tunability (可调性) is a fundamental principle that underpins many scientific and technological advancements. Its implications span across multiple domains, from improving electronic devices to enhancing renewable energy solutions and advancing biotechnological applications. As we continue to explore the potential of tunability (可调性), it is essential to navigate the associated challenges to fully harness its benefits. The future of innovation will undoubtedly rely on our ability to understand and manipulate tunability (可调性) in creative and effective ways.