thick wall ionization chamber

简明释义

厚壁电离室

英英释义

例句

1.The thick wall ionization chamber was designed to withstand high levels of radiation without compromising accuracy.

厚壁电离室的设计可以承受高水平的辐射而不影响准确性。

2.During the experiment, the thick wall ionization chamber provided reliable data on radiation exposure.

在实验过程中，厚壁电离室提供了关于辐射暴露的可靠数据。

3.In nuclear physics, a thick wall ionization chamber is essential for detecting alpha particles.

在核物理学中，厚壁电离室对于探测α粒子至关重要。

4.The researchers used a thick wall ionization chamber to measure high-energy radiation levels in the laboratory.

研究人员使用厚壁电离室来测量实验室中的高能辐射水平。

5.For accurate dosimetry, the team calibrated the thick wall ionization chamber before conducting experiments.

为了准确的剂量测定，团队在进行实验前对厚壁电离室进行了校准。

作文

The field of radiation measurement has advanced significantly over the years, with various devices being developed to ensure accurate detection and analysis of ionizing radiation. One of the most notable instruments in this domain is the thick wall ionization chamber, which plays a crucial role in both research and practical applications. Understanding how this device works and its significance can provide valuable insights into radiation safety and measurement techniques.A thick wall ionization chamber is specifically designed to measure high levels of radiation. Unlike standard ionization chambers that may be limited in their range, this type of chamber is constructed with thicker walls, allowing it to withstand and accurately measure intense radiation fields. The design typically includes a gas-filled chamber where ionization occurs when radiation passes through. As the radiation interacts with the gas molecules, it produces ion pairs—electrons and positive ions. These charged particles are then collected by electrodes within the chamber, generating an electrical signal that correlates with the amount of radiation present.One of the key advantages of using a thick wall ionization chamber is its ability to provide precise measurements even in challenging conditions. For instance, in nuclear power plants or during radiological emergencies, the levels of radiation can be extremely high, making it essential to have reliable measuring tools. The robustness of the thick wall design ensures that the chamber can operate effectively without being damaged or providing inaccurate readings due to overwhelming radiation exposure.In addition to its application in industrial settings, the thick wall ionization chamber is also widely used in research laboratories. Scientists studying radiation effects on various materials or biological systems rely on accurate measurements to draw meaningful conclusions. The capability of this chamber to handle high doses of radiation makes it an invaluable tool in experimental setups, particularly in fields such as nuclear physics and medical research.Moreover, the data obtained from a thick wall ionization chamber is critical for ensuring safety protocols in environments where radiation is present. By continuously monitoring radiation levels, workers can be alerted to any dangerous increases in exposure, allowing them to take necessary precautions. This is particularly important in medical facilities where radiation therapy is administered; precise measurements help to protect both patients and healthcare providers from unnecessary radiation exposure.In conclusion, the thick wall ionization chamber is an essential instrument in the field of radiation measurement. Its robust design allows for accurate detection of high radiation levels, making it indispensable in both industrial and research settings. By understanding the workings and significance of this device, we can better appreciate the importance of radiation safety and the technological advancements that aid in protecting individuals and the environment from harmful radiation exposure. As technology continues to evolve, the role of devices like the thick wall ionization chamber will undoubtedly remain crucial in our ongoing efforts to monitor and manage radiation effectively.

辐射测量领域多年来取得了显著进展，开发了各种设备以确保对电离辐射的准确检测和分析。在这个领域中，最值得注意的仪器之一是厚壁电离室，它在研究和实际应用中起着至关重要的作用。理解这个设备的工作原理及其重要性可以为辐射安全和测量技术提供有价值的见解。厚壁电离室专门设计用于测量高水平的辐射。与可能受到限制的标准电离室不同，这种类型的电离室采用更厚的壁构造，使其能够承受并准确测量强烈的辐射场。其设计通常包括一个充气腔体，当辐射通过时会发生电离。当辐射与气体分子相互作用时，会产生离子对——电子和正离子。这些带电粒子随后被腔内的电极收集，产生与辐射量相关的电信号。使用厚壁电离室的一个主要优点是其能够在困难条件下提供精确测量。例如，在核电厂或放射性紧急情况下，辐射水平可能极高，因此拥有可靠的测量工具至关重要。厚壁设计的坚固性确保了电离室能够有效运行，而不会因辐射暴露过大而受到损坏或提供不准确的读数。除了在工业环境中的应用外，厚壁电离室还广泛用于研究实验室。研究辐射对各种材料或生物系统影响的科学家依赖于准确的测量来得出有意义的结论。该电离室处理高剂量辐射的能力使其成为实验设置中不可或缺的工具，特别是在核物理和医学研究等领域。此外，从厚壁电离室获得的数据对于确保辐射存在环境中的安全协议至关重要。通过持续监测辐射水平，工作人员可以及时发现任何危险的辐射增加，从而采取必要的预防措施。这在进行放射治疗的医疗设施中尤为重要；精确的测量有助于保护患者和医护人员免受不必要的辐射暴露。总之，厚壁电离室是辐射测量领域的重要仪器。其坚固的设计使其能够准确检测高辐射水平，使其在工业和研究环境中不可或缺。通过理解该设备的工作原理和重要性，我们可以更好地欣赏辐射安全的重要性以及有助于保护个人和环境免受有害辐射暴露的技术进步。随着技术的不断发展，像厚壁电离室这样的设备在我们持续监测和有效管理辐射方面无疑将保持关键角色。