pneutronic ammeter

简明释义

便袖珍式安培表

英英释义

例句

1.Researchers rely on the pneutronic ammeter for experiments involving neutron scattering.

研究人员依赖于气动电流表进行涉及中子散射的实验。

2.Accurate data from the pneutronic ammeter helped improve the safety protocols in the facility.

来自气动电流表的准确数据有助于改善设施的安全协议。

3.The technician used a pneutronic ammeter to monitor the flow of neutrons in the reactor.

技术人员使用气动电流表监测反应堆中的中子流动。

4.The engineer calibrated the pneutronic ammeter to ensure accurate readings during the experiment.

工程师校准了气动电流表以确保实验期间的读数准确。

5.In nuclear physics labs, a pneutronic ammeter is essential for measuring neutron currents.

在核物理实验室中，气动电流表对于测量中子电流至关重要。

作文

In the field of nuclear physics and engineering, precise measurements are crucial for both research and practical applications. One of the essential instruments used in this domain is the pneutronic ammeter, which plays a significant role in measuring neutron currents. Neutrons, being neutral particles, do not interact with electric fields in the same way that charged particles do. This unique characteristic makes the measurement of neutron flux challenging. However, the pneutronic ammeter provides a solution by utilizing specific detection techniques to quantify neutron activity effectively.The operation of a pneutronic ammeter involves the conversion of neutron interactions into measurable electrical signals. Typically, this device employs materials that can capture neutrons and subsequently produce charged particles as a result of these interactions. For instance, when a neutron collides with a nucleus of a suitable material (often a lithium or boron-based compound), it can cause the nucleus to emit charged particles such as alpha particles. The pneutronic ammeter then detects these charged particles and converts their energy into an electrical current, which can be measured and analyzed.One of the primary applications of the pneutronic ammeter is in nuclear reactors, where monitoring neutron flux is vital for maintaining safe and efficient operations. By measuring the neutron currents, engineers can assess the rate of nuclear fission occurring within the reactor core. This information is critical for controlling the reaction and ensuring that it remains within safe limits. Additionally, the data collected by the pneutronic ammeter can help in optimizing fuel usage and improving the overall efficiency of the reactor.Beyond nuclear reactors, pneutronic ammeters are also utilized in various scientific research settings, including particle physics experiments and radiation safety assessments. In these environments, accurate neutron measurements are necessary for understanding fundamental interactions at the atomic level and for ensuring the safety of personnel working with radioactive materials. The ability to provide real-time readings allows researchers to make informed decisions and adjustments during experiments, enhancing both safety and data integrity.Furthermore, advancements in technology have led to the development of more sophisticated pneutronic ammeters. Modern devices may incorporate digital interfaces, allowing for easier data collection and analysis through computer software. This integration of technology not only improves the accuracy of measurements but also facilitates the sharing of data among research teams and organizations. As the field of nuclear science continues to evolve, the importance of reliable instruments like the pneutronic ammeter cannot be overstated.In conclusion, the pneutronic ammeter is an indispensable tool in the realm of nuclear physics, providing vital measurements of neutron currents that are essential for both safety and research. Its ability to convert neutron interactions into measurable electrical signals enables scientists and engineers to monitor and control nuclear reactions effectively. As technology progresses, the pneutronic ammeter will undoubtedly continue to play a pivotal role in advancing our understanding of nuclear phenomena and ensuring the safe use of nuclear energy.

在核物理和工程领域，精确的测量对于研究和实际应用至关重要。在这个领域中，pneutronic ammeter（中子电流计）是一个重要的仪器，它在测量中子电流方面发挥着重要作用。中子作为中性粒子，并不像带电粒子那样与电场相互作用。这一独特的特性使得中子通量的测量变得具有挑战性。然而，pneutronic ammeter通过利用特定的检测技术有效地量化中子活动，提供了解决方案。pneutronic ammeter的操作涉及将中子相互作用转化为可测量的电信号。通常，该设备采用能够捕获中子的材料，并在这些相互作用后产生带电粒子。例如，当中子与适当材料（通常是锂或硼基化合物）的原子核碰撞时，它可能导致原子核发射带电粒子，如α粒子。然后，pneutronic ammeter检测这些带电粒子，并将其能量转换为电流，可以进行测量和分析。pneutronic ammeter的主要应用之一是在核反应堆中，监测中子通量对于维持安全和高效的操作至关重要。通过测量中子电流，工程师可以评估反应堆核心内发生的核裂变速率。这些信息对于控制反应并确保其保持在安全范围内至关重要。此外，pneutronic ammeter收集的数据可以帮助优化燃料使用，提高反应堆的整体效率。除了核反应堆，pneutronic ammeters还被广泛应用于各种科学研究环境，包括粒子物理实验和辐射安全评估。在这些环境中，准确的中子测量对于理解原子层面的基本相互作用和确保与放射性材料一起工作的人员安全是必要的。实时读取的能力使研究人员能够在实验过程中做出明智的决策和调整，从而增强安全性和数据完整性。此外，技术的进步促使更复杂的pneutronic ammeters的发展。现代设备可能集成了数字接口，使得通过计算机软件更容易收集和分析数据。这种技术的整合不仅提高了测量的准确性，还促进了研究团队和组织之间数据的共享。随着核科学领域的不断发展，可靠仪器如pneutronic ammeter的重要性不容小觑。总之，pneutronic ammeter是核物理领域不可或缺的工具，提供了对中子电流的关键测量，这对于安全和研究都至关重要。它将中子相互作用转化为可测量的电信号的能力，使科学家和工程师能够有效地监测和控制核反应。随着技术的进步，pneutronic ammeter无疑将在推动我们对核现象的理解和确保核能安全使用方面继续发挥关键作用。