wall less ionization chamber

简明释义

无壁电离室

英英释义

例句

1.The design of the wall less ionization chamber 无壁电离室 minimizes interference from surrounding materials.

设计上的无壁电离室最大限度地减少了周围材料的干扰。

2.In radiation therapy, a wall less ionization chamber 无壁电离室 is used to measure the dose delivered to patients.

在放射治疗中，使用无壁电离室来测量给患者施加的剂量。

3.For environmental monitoring, a wall less ionization chamber 无壁电离室 can provide real-time data on radiation exposure.

对于环境监测，无壁电离室可以提供辐射暴露的实时数据。

4.A wall less ionization chamber 无壁电离室 allows for better response times in detecting radiation levels.

使用无壁电离室可以更好地响应辐射水平的检测。

5.The researchers calibrated their equipment using a wall less ionization chamber 无壁电离室 for accurate readings.

研究人员使用无壁电离室校准他们的设备，以获得准确的读数。

作文

In the field of radiation detection and measurement, the concept of a wall less ionization chamber is pivotal for numerous applications. An ionization chamber is a device that measures ionizing radiation by collecting the charges created by the radiation as it passes through a gas. Traditionally, these chambers are enclosed in walls that can affect the measurement due to their material properties. However, a wall less ionization chamber eliminates these walls, allowing for more accurate readings of radiation levels. This innovative design enhances the sensitivity of the device and provides a more direct interaction between the radiation and the detection medium.The absence of walls in such a chamber means that the radiation can enter freely from all directions, which is particularly advantageous in environments where radiation is not uniformly distributed. For instance, in nuclear facilities or during radiological emergencies, having a wall less ionization chamber allows for real-time monitoring of radiation levels without the interference that walls might introduce. This is crucial for ensuring safety and compliance with regulatory standards.Moreover, the design of a wall less ionization chamber facilitates the detection of low-energy photons that might be absorbed by the walls of a traditional chamber. This capability is essential in fields such as medical imaging and radiation therapy, where precise measurements are necessary for effective treatment planning and patient safety.Another significant advantage of the wall less ionization chamber is its versatility. These chambers can be tailored to suit various applications, from environmental monitoring to industrial uses. For example, in environmental science, researchers can deploy wall less ionization chambers to study background radiation levels in different ecosystems, helping to assess the impact of human activities on natural radiation levels.Furthermore, the construction of a wall less ionization chamber often utilizes advanced materials that enhance its durability and functionality. Innovations in technology have led to the development of lightweight, yet robust materials that can withstand harsh conditions while maintaining high sensitivity and accuracy. This advancement opens up new possibilities for deploying these chambers in remote or hostile environments where traditional detectors would fail.In conclusion, the wall less ionization chamber represents a significant advancement in radiation detection technology. Its ability to provide accurate, real-time measurements without the interference of walls makes it an invaluable tool in various fields, including nuclear safety, medical applications, and environmental monitoring. As technology continues to evolve, the wall less ionization chamber will likely play an increasingly important role in our ability to detect and measure radiation effectively, ensuring safety and compliance in a world where radiation is an ever-present concern.

在辐射检测和测量领域，无壁电离室的概念对许多应用至关重要。电离室是一种通过收集辐射经过气体时产生的电荷来测量电离辐射的设备。传统上，这些电离室被封闭在墙壁中，这可能会由于墙壁的材料特性而影响测量。然而，无壁电离室消除了这些墙壁，使得辐射可以更准确地读取。这种创新设计增强了设备的灵敏度，并提供了辐射与探测介质之间更直接的相互作用。在这种电离室中没有墙壁意味着辐射可以从各个方向自由进入，这在辐射不是均匀分布的环境中特别有利。例如，在核设施或放射性紧急情况下，拥有一个无壁电离室允许实时监测辐射水平，而不会引入墙壁可能带来的干扰。这对于确保安全和遵守监管标准至关重要。此外，无壁电离室的设计便于检测可能被传统电离室墙壁吸收的低能光子。这种能力在医学成像和放射治疗等领域至关重要，在这些领域，精确的测量对于有效的治疗计划和患者安全是必要的。无壁电离室的另一个显著优势是它的多功能性。这些电离室可以根据各种应用进行定制，从环境监测到工业用途。例如，在环境科学中，研究人员可以部署无壁电离室来研究不同生态系统中的背景辐射水平，从而帮助评估人类活动对自然辐射水平的影响。此外，无壁电离室的构造通常采用先进材料，以增强其耐用性和功能性。技术的创新导致开发出轻巧但坚固的材料，这些材料能够承受恶劣条件，同时保持高灵敏度和准确性。这一进展为在偏远或恶劣环境中部署这些电离室开辟了新的可能性，而传统探测器则会失败。总之，无壁电离室代表了辐射检测技术的重要进步。它能够提供准确的实时测量，而不受墙壁干扰，使其成为核安全、医学应用和环境监测等多个领域中不可或缺的工具。随着技术的不断发展，无壁电离室在我们有效检测和测量辐射的能力中将发挥越来越重要的作用，确保在辐射始终存在的世界中保证安全和合规。