integrating dosimeter

简明释义

累计剂量仪

英英释义

例句

1.The researchers used an integrating dosimeter to measure the cumulative radiation dose over the entire experiment.

研究人员使用了一个积分剂量计来测量整个实验中的累积辐射剂量。

2.The integrating dosimeter can be calibrated to different energy levels to provide accurate readings.

该积分剂量计可以根据不同的能量水平进行校准，以提供准确的读数。

3.In medical facilities, an integrating dosimeter is essential for monitoring patient exposure during radiological procedures.

在医疗设施中，积分剂量计对于监测患者在放射学程序中的暴露至关重要。

4.To ensure safety, workers are required to wear an integrating dosimeter while working in high-radiation areas.

为了确保安全，工作人员在高辐射区域工作时需要佩戴积分剂量计。

5.The integrating dosimeter provides a reliable way to assess long-term exposure to ionizing radiation in industrial settings.

在工业环境中，积分剂量计提供了一种可靠的方法来评估对电离辐射的长期暴露。

作文

In the field of radiation measurement, an integrating dosimeter is a crucial tool used to assess the total accumulated dose of radiation exposure over a specified period. Unlike traditional dosimeters that provide real-time readings, an integrating dosimeter collects and integrates the radiation dose over time, allowing for a comprehensive evaluation of exposure levels. This capability is particularly important in environments where radiation levels fluctuate, such as in medical facilities, nuclear power plants, and research laboratories.The principle behind an integrating dosimeter is relatively straightforward. It typically consists of a sensitive material that reacts to radiation. As the dosimeter absorbs radiation, it records the cumulative dose through changes in its physical or chemical properties. These changes can then be measured and quantified after the exposure period. This makes the integrating dosimeter an invaluable asset for ensuring the safety of workers who are exposed to radiation on a regular basis.One of the significant advantages of using an integrating dosimeter is its ability to provide a more accurate picture of radiation exposure over time. For example, in occupational settings, workers may not be exposed to constant levels of radiation; instead, their exposure may vary significantly throughout the day. By using an integrating dosimeter, employers can obtain data that reflects the actual exposure levels experienced by workers, enabling them to implement appropriate safety measures and comply with regulatory requirements.Moreover, the data collected by an integrating dosimeter can be essential for research purposes. Scientists and researchers can analyze cumulative radiation exposure data to study its effects on health and safety. This information can help in developing better protective measures and guidelines for radiation safety, ultimately contributing to improved public health outcomes.Despite its many benefits, there are also some limitations associated with the use of an integrating dosimeter. For instance, because these devices measure cumulative exposure rather than instantaneous levels, they may not provide immediate alerts in case of hazardous radiation spikes. This characteristic can pose risks in emergency situations where rapid response is necessary. Therefore, it is often recommended to use integrating dosimeters in conjunction with real-time monitoring systems to ensure comprehensive radiation safety protocols.In conclusion, the integrating dosimeter serves as an essential instrument in the measurement of radiation exposure. Its ability to integrate and record cumulative doses over time offers valuable insights into radiation safety, particularly in environments with fluctuating radiation levels. While it has some limitations, the benefits of using an integrating dosimeter far outweigh the drawbacks, making it a critical component in protecting individuals from the potential hazards of radiation exposure. As technology continues to advance, we can expect further improvements in the design and functionality of integrating dosimeters, enhancing their effectiveness in safeguarding health and safety in various industries.

在辐射测量领域，集成剂量计是一种关键工具，用于评估在特定时间内的辐射总累积剂量。与提供实时读数的传统剂量计不同，集成剂量计在一段时间内收集并整合辐射剂量，从而允许对暴露水平进行全面评估。这种能力在辐射水平波动的环境中尤为重要，例如在医疗设施、核电厂和研究实验室。集成剂量计的原理相对简单。它通常由一种对辐射敏感的材料组成。当剂量计吸收辐射时，通过其物理或化学性质的变化记录累积剂量。这些变化可以在暴露期结束后进行测量和量化。这使得集成剂量计成为确保定期接触辐射的工人安全的宝贵资产。使用集成剂量计的一个显著优势是它能够提供更准确的辐射暴露情况。例如，在职业环境中，工人的辐射暴露可能不是恒定的；相反，他们的暴露水平可能在一天内显著变化。通过使用集成剂量计，雇主可以获得反映工人实际暴露水平的数据，使他们能够实施适当的安全措施并遵守监管要求。此外，集成剂量计收集的数据对研究目的也至关重要。科学家和研究人员可以分析累积辐射暴露数据，以研究其对健康和安全的影响。这些信息有助于制定更好的防护措施和辐射安全指南，最终有助于改善公共健康结果。尽管有许多好处，但使用集成剂量计也存在一些局限性。例如，由于这些设备测量的是累积暴露而非瞬时水平，因此在出现危险辐射峰值时，它们可能无法立即发出警报。这种特性在需要快速响应的紧急情况下可能会带来风险。因此，通常建议将集成剂量计与实时监测系统结合使用，以确保全面的辐射安全协议。总之，集成剂量计作为测量辐射暴露的重要工具，其整合和记录累积剂量的能力为辐射安全提供了有价值的见解，特别是在辐射水平波动的环境中。尽管存在一些限制，但使用集成剂量计的好处远远超过缺点，使其成为保护个人免受潜在辐射危害的关键组成部分。随着技术的不断进步，我们可以期待集成剂量计在设计和功能上的进一步改进，从而增强其在各个行业中保障健康和安全的有效性。