time resolving power

简明释义

时间分辨本领

英英释义

例句

1.The camera's time resolving power allows it to capture fast-moving objects without blur.

这款相机的时间分辨率使其能够清晰捕捉快速移动的物体。

2.The new laser system has an improved time resolving power, enabling better measurements of transient phenomena.

新激光系统具有更好的时间分辨率，可以更好地测量瞬态现象。

3.Researchers are developing techniques to enhance the time resolving power of their measurements.

研究人员正在开发技术以增强他们测量的时间分辨率。

4.In spectroscopy, the time resolving power is crucial for distinguishing between closely spaced spectral lines.

在光谱学中，时间分辨率对于区分紧密相邻的光谱线至关重要。

5.For high-speed imaging applications, a high time resolving power is essential to capture every detail.

对于高速成像应用，高时间分辨率是捕捉每个细节的关键。

作文

In the realm of physics and engineering, the concept of time resolving power plays a crucial role in understanding how systems behave over time. Time resolving power refers to the ability of a measurement system or device to distinguish between two events that occur at very close time intervals. This is particularly important in fields such as spectroscopy, telecommunications, and high-speed imaging, where the timing of events can significantly impact the analysis and interpretation of data.To illustrate this concept, consider the example of a high-speed camera used in scientific research. These cameras are designed to capture rapid sequences of events, such as the explosion of a firework or the motion of a fast-moving object. The time resolving power of the camera determines how closely spaced these events can be while still being accurately recorded. A camera with high time resolving power can capture events that occur just microseconds apart, providing a detailed view of the dynamics involved.On the other hand, if a camera has low time resolving power, it may not be able to differentiate between two events that happen in quick succession. This limitation can lead to a loss of critical information, making it difficult for researchers to draw accurate conclusions from their observations. Therefore, enhancing the time resolving power of measurement devices is a key focus in many technological advancements.Another area where time resolving power is essential is in telecommunications. In digital communication, signals are transmitted in packets that must be received and processed in real time. If the system's time resolving power is insufficient, it might result in overlapping signals, leading to data loss or corruption. Engineers constantly work to improve the time resolving power of communication systems to ensure that they can handle high volumes of data without compromising on speed or accuracy.In addition to its applications in technology, time resolving power also has significant implications in scientific research. For instance, in the field of quantum mechanics, understanding the timing of particle interactions can reveal fundamental principles about the nature of matter and energy. Researchers utilize advanced techniques that enhance time resolving power to observe phenomena that were previously thought to be unobservable.In conclusion, time resolving power is a vital concept that underpins many aspects of modern science and technology. Its importance cannot be overstated, as it directly affects our ability to measure, analyze, and understand the world around us. As technology continues to advance, the quest for greater time resolving power will undoubtedly lead to new discoveries and innovations that push the boundaries of what we currently know. Understanding and improving time resolving power is not just a technical challenge; it is a pathway to unlocking deeper insights into the universe and enhancing our capabilities in various fields.

在物理和工程领域中，时间分辨率的概念在理解系统如何随时间变化方面起着至关重要的作用。时间分辨率是指测量系统或设备区分在非常接近时间间隔内发生的两个事件的能力。这在光谱学、电信和高速成像等领域尤为重要，因为事件的时机会显著影响数据的分析和解释。为了说明这一概念，考虑一个用于科学研究的高速摄像机的例子。这些摄像机旨在捕捉快速序列的事件，例如烟花的爆炸或快速移动物体的运动。摄像机的时间分辨率决定了这些事件可以多接近而仍然被准确记录。具有高时间分辨率的摄像机可以捕捉发生在微秒之间的事件，从而提供对所涉及动态的详细视图。另一方面，如果摄像机的时间分辨率较低，则可能无法区分迅速相继发生的两个事件。这种限制可能导致关键信息的丧失，使研究人员难以从观察中得出准确的结论。因此，提高测量设备的时间分辨率是许多技术进步的关键焦点。另一个时间分辨率至关重要的领域是电信。在数字通信中，信号以数据包的形式传输，必须实时接收和处理。如果系统的时间分辨率不足，可能会导致信号重叠，从而导致数据丢失或损坏。工程师们不断努力提高通信系统的时间分辨率，以确保它们能够在不妥协速度或准确性的情况下处理大量数据。除了在技术中的应用外，时间分辨率在科学研究中也具有重要意义。例如，在量子力学领域，理解粒子相互作用的时机可以揭示有关物质和能量本质的基本原则。研究人员利用增强时间分辨率的先进技术来观察以前认为无法观察到的现象。总之，时间分辨率是现代科学和技术许多方面的重要概念。它的重要性不容小觑，因为它直接影响我们测量、分析和理解周围世界的能力。随着技术的不断进步，对更大时间分辨率的追求无疑将导致新的发现和创新，推动我们当前知识的边界。理解和提高时间分辨率不仅是一个技术挑战；它是解锁对宇宙更深刻见解和增强我们在各个领域能力的途径。