uniform irradiation

简明释义

均匀辐照

英英释义

例句

1.The medical imaging technique requires uniform irradiation 均匀照射 to produce clear and accurate images.

该医学成像技术需要uniform irradiation 均匀照射以产生清晰准确的图像。

2.The researchers conducted experiments to achieve uniform irradiation 均匀照射 of the samples to ensure consistent results.

研究人员进行了实验，以实现样品的uniform irradiation 均匀照射，以确保结果的一致性。

3.To prevent hot spots, the engineers ensured that the uniform irradiation 均匀照射 was maintained during the testing phase.

为了防止热点，工程师确保在测试阶段维持uniform irradiation 均匀照射。

4.The design of the greenhouse was optimized for uniform irradiation 均匀照射 to promote even plant growth.

温室的设计经过优化，以实现uniform irradiation 均匀照射，以促进植物均匀生长。

5.In photovoltaic systems, uniform irradiation 均匀照射 is crucial for maximizing energy conversion efficiency.

在光伏系统中，uniform irradiation 均匀照射 对于最大化能量转换效率至关重要。

作文

In the field of physics and engineering, the concept of uniform irradiation plays a crucial role in various applications, particularly in the domains of materials science, solar energy, and medical treatments. Uniform irradiation refers to the consistent and even distribution of light or radiation across a specific area or volume. This principle is essential for ensuring that all parts of an object or surface receive the same amount of energy, which can significantly affect the outcomes of experiments and processes.For instance, in solar energy applications, achieving uniform irradiation on solar panels is vital for maximizing their efficiency. If some areas of the panel receive more sunlight than others, it can lead to uneven energy production, ultimately reducing the overall performance of the system. Engineers and scientists work diligently to design solar panels and systems that ensure uniform irradiation, allowing for optimal energy conversion and utilization.Similarly, in the field of materials science, uniform irradiation is critical during processes such as curing or treatment of materials. For example, when polymers are exposed to ultraviolet (UV) light for curing, it is important that the UV light is evenly distributed across the material. Any discrepancies in the irradiation can lead to incomplete curing, resulting in weak spots or defects in the final product. Therefore, researchers often employ advanced techniques and equipment to achieve uniform irradiation in their experiments.Moreover, uniform irradiation is also significant in medical applications, particularly in radiation therapy for cancer treatment. In this context, the goal is to deliver a precise dose of radiation to the tumor while minimizing exposure to surrounding healthy tissues. Achieving uniform irradiation of the tumor ensures that the cancer cells receive an adequate dose to maximize treatment effectiveness while reducing potential side effects. Medical physicists utilize sophisticated imaging and planning systems to calculate and deliver uniform irradiation to target areas.To sum up, the concept of uniform irradiation is integral to various scientific and engineering fields. Its importance cannot be overstated, as it impacts the efficiency and effectiveness of technologies ranging from solar energy systems to medical treatments. Understanding and mastering the principles behind uniform irradiation enables professionals to innovate and improve practices within their respective fields, ultimately leading to advancements that benefit society as a whole. By focusing on achieving uniform irradiation, we can enhance the quality and performance of numerous applications, paving the way for a more sustainable and healthier future.

在物理和工程领域，均匀辐照的概念在材料科学、太阳能和医疗治疗等多个应用中发挥着至关重要的作用。均匀辐照是指光或辐射在特定区域或体积内的一致和均匀分布。这一原理对于确保物体或表面的所有部分接收到相同数量的能量至关重要，这可以显著影响实验和过程的结果。例如，在太阳能应用中，实现太阳能电池板上的均匀辐照对于最大化其效率至关重要。如果面板的某些区域比其他区域接收到更多的阳光，就会导致能源生产的不均匀，从而降低系统的整体性能。工程师和科学家们努力设计能够确保均匀辐照的太阳能电池板和系统，以实现最佳的能源转化和利用。同样，在材料科学领域，均匀辐照在固化或处理材料的过程中也至关重要。例如，当聚合物暴露于紫外线（UV）光以进行固化时，确保UV光在材料上均匀分布非常重要。辐照的不一致可能导致固化不完全，最终导致最终产品中的弱点或缺陷。因此，研究人员通常采用先进的技术和设备来实现他们实验中的均匀辐照。此外，均匀辐照在医疗应用中也具有重要意义，尤其是在癌症治疗的放射治疗中。在这种情况下，目标是向肿瘤提供精确剂量的辐射，同时尽量减少对周围健康组织的暴露。实现肿瘤的均匀辐照确保癌细胞接收到足够的剂量，以最大化治疗效果，同时减少潜在的副作用。医学物理学家利用复杂的成像和规划系统来计算并提供针对目标区域的均匀辐照。总之，均匀辐照的概念在各个科学和工程领域中都是不可或缺的。它的重要性不容小觑，因为它影响着从太阳能系统到医疗治疗的技术的效率和有效性。理解和掌握均匀辐照背后的原理使专业人士能够在各自领域内创新和改进实践，最终带来有利于整个社会的进步。通过专注于实现均匀辐照，我们可以提高众多应用的质量和性能，为一个更可持续和更健康的未来铺平道路。