laser radiation wavelength
简明释义
激光辐射波长
英英释义
The distance between successive peaks or troughs in the electromagnetic wave emitted by a laser, typically measured in nanometers (nm). | 激光发出的电磁波中连续波峰或波谷之间的距离,通常以纳米(nm)为单位进行测量。 |
例句
1.The laser radiation wavelength is crucial for determining the absorption properties of different materials.
激光辐射波长对于确定不同材料的吸收特性至关重要。
2.In medical applications, the laser radiation wavelength can affect the effectiveness of treatments.
在医疗应用中,激光辐射波长会影响治疗的有效性。
3.When calibrating laser equipment, it's important to measure the laser radiation wavelength accurately.
在校准激光设备时,准确测量激光辐射波长非常重要。
4.The laser radiation wavelength determines how deep the laser can penetrate into biological tissues.
激光辐射波长决定了激光能深入生物组织的深度。
5.Different colors of lasers correspond to different laser radiation wavelengths.
不同颜色的激光对应不同的激光辐射波长。
作文
The field of optics has witnessed remarkable advancements over the past few decades, particularly with the development of laser technology. One of the most crucial aspects of lasers is their ability to emit light at specific wavelengths, known as laser radiation wavelength. This term refers to the distance between successive peaks of the electromagnetic waves generated by a laser. Understanding this concept is essential for various applications, ranging from medical treatments to telecommunications.Lasers produce light that is highly coherent, monochromatic, and directional. The laser radiation wavelength determines the color of the light emitted and influences how it interacts with different materials. For instance, in medical applications such as laser surgery, specific wavelengths are chosen to target particular tissues without affecting surrounding areas. This precision is due to the selective absorption of light at certain wavelengths by different biological substances.In telecommunications, the laser radiation wavelength plays a vital role in data transmission. Optical fibers are designed to transmit light at specific wavelengths to minimize loss and maximize bandwidth. The choice of wavelength affects the performance of fiber optic systems, making it crucial for engineers to understand the implications of laser radiation wavelength when designing communication networks.Moreover, the laser radiation wavelength is also significant in scientific research. In spectroscopy, for example, researchers analyze the interaction of light with matter to gain insights into the composition and properties of various substances. Different materials absorb light at specific wavelengths, allowing scientists to identify chemical compounds and study their characteristics.In conclusion, the laser radiation wavelength is a fundamental aspect of laser technology that impacts numerous fields, including medicine, telecommunications, and scientific research. By understanding the principles behind laser radiation wavelength, we can harness the power of lasers for innovative applications that improve our quality of life and advance our knowledge of the world around us. As technology continues to evolve, the importance of mastering the concept of laser radiation wavelength will only grow, paving the way for future discoveries and advancements.
光学领域在过去几十年中经历了显著的进步,尤其是在激光技术的发展方面。激光的一个关键特性是它们能够以特定波长发射光,这被称为激光辐射波长。这个术语指的是激光产生的电磁波的相邻波峰之间的距离。理解这一概念对于各种应用至关重要,从医疗治疗到电信。激光产生的光具有高度的相干性、单色性和方向性。激光辐射波长决定了发射光的颜色,并影响其与不同材料的相互作用。例如,在激光手术等医疗应用中,选择特定的波长以针对特定组织而不影响周围区域。这种精确性源于不同生物物质对特定波长光的选择性吸收。在电信领域,激光辐射波长在数据传输中发挥着至关重要的作用。光纤被设计为在特定波长下传输光,以最小化损耗并最大化带宽。波长的选择影响光纤光缆系统的性能,因此工程师在设计通信网络时必须理解激光辐射波长的含义。此外,激光辐射波长在科学研究中也很重要。在光谱学中,例如,研究人员分析光与物质的相互作用,以获取关于各种物质的成分和性质的见解。不同材料在特定波长下吸收光,使科学家能够识别化合物并研究其特性。总之,激光辐射波长是激光技术的一个基本方面,影响着医学、电信和科学研究等多个领域。通过理解激光辐射波长背后的原理,我们可以利用激光的力量进行创新应用,改善我们的生活质量并推动我们对周围世界的认识。随着技术的不断发展,掌握激光辐射波长这一概念的重要性只会增加,为未来的发现和进步铺平道路。
相关单词
