reduction of linewidth

简明释义

线宽收缩

英英释义

例句

1.The recent advancements in laser technology have led to a significant reduction of linewidth 线宽的减少, improving the precision of measurements.

激光技术的最新进展导致了显著的线宽的减少，提高了测量的精度。

2.The reduction of linewidth 线宽的减少 achieved through advanced filtering techniques has improved signal clarity.

通过先进的滤波技术实现的线宽的减少提高了信号清晰度。

3.In semiconductor manufacturing, achieving a reduction of linewidth 线宽的减少 is crucial for enhancing device performance.

在半导体制造中，实现线宽的减少对提高器件性能至关重要。

4.Researchers reported a reduction of linewidth 线宽的减少 in the emission spectra of the new quantum dots.

研究人员报告了新量子点发射光谱中线宽的减少。

5.The reduction of linewidth 线宽的减少 in optical fibers can lead to better data transmission rates.

光纤中的线宽的减少可以提高数据传输速率。

作文

The field of optics has seen significant advancements in recent years, particularly in the area of laser technology. One of the most critical aspects of laser performance is its linewidth, which refers to the range of wavelengths emitted by the laser source. A narrower linewidth indicates that the laser emits light at a more precise wavelength, which can enhance the performance of various applications, including telecommunications, spectroscopy, and medical devices. Therefore, researchers are constantly exploring methods for the reduction of linewidth (线宽的减少) to improve laser efficiency and effectiveness.In telecommunications, for instance, the reduction of linewidth (线宽的减少) can lead to better signal quality over long distances. Lasers with narrow linewidths produce less phase noise, which is crucial for maintaining the integrity of data transmitted through optical fibers. As data demands continue to grow, ensuring that lasers can operate with minimal linewidth becomes increasingly important. Researchers have developed several techniques to achieve this, including temperature stabilization, optical feedback, and advanced modulation schemes.Moreover, in the field of spectroscopy, the reduction of linewidth (线宽的减少) allows for more accurate measurements of material properties. When analyzing substances, a laser with a wide linewidth may produce overlapping spectral lines, making it difficult to identify specific components. By narrowing the linewidth, scientists can obtain clearer and more distinct spectral features, facilitating the identification and quantification of various compounds. This is particularly beneficial in environmental monitoring, where precise detection of pollutants is necessary.Medical applications also benefit from the reduction of linewidth (线宽的减少). In laser surgery, for example, a laser with a narrow linewidth can minimize thermal damage to surrounding tissues while effectively targeting the intended area. This precision is essential for procedures such as laser eye surgery or removing tumors, where preserving healthy tissue is critical for patient recovery. Researchers are continually working on improving laser systems to achieve optimal linewidth reduction, thus enhancing safety and efficacy in medical treatments.Furthermore, the reduction of linewidth (线宽的减少) is not only relevant in practical applications but also holds theoretical significance in understanding laser dynamics. The study of how linewidth affects the coherence properties of lasers can lead to new insights into quantum optics and photonics. By exploring the fundamental principles behind linewidth generation, scientists can develop novel laser designs that push the boundaries of current technology.In conclusion, the reduction of linewidth (线宽的减少) is a vital area of research in optics and laser technology, influencing various fields such as telecommunications, spectroscopy, and medicine. As demand for high-performance lasers continues to rise, ongoing efforts to achieve narrower linewidths will play a crucial role in advancing both practical applications and theoretical understanding. The pursuit of excellence in laser performance is an exciting journey that promises to unlock new possibilities and innovations in the future.

光学领域近年来取得了显著进展，特别是在激光技术方面。激光性能的一个关键方面是其线宽，指的是激光源发射的波长范围。更窄的线宽意味着激光以更精确的波长发射光，这可以增强各种应用的性能，包括电信、光谱学和医疗设备。因此，研究人员不断探索减小reduction of linewidth（线宽的减少）的方法，以提高激光的效率和有效性。例如，在电信领域，reduction of linewidth（线宽的减少）可以提高长距离信号的质量。线宽较窄的激光器产生的相位噪声较少，这对维护通过光纤传输的数据完整性至关重要。随着数据需求的不断增长，确保激光器能够以最小的线宽运行变得越来越重要。研究人员开发了多种技术来实现这一目标，包括温度稳定、光学反馈和先进的调制方案。此外，在光谱学领域，reduction of linewidth（线宽的减少）允许更准确地测量材料特性。在分析物质时，线宽较宽的激光可能会产生重叠的光谱线，从而使识别特定成分变得困难。通过缩小线宽，科学家可以获得更清晰、更明显的光谱特征，从而便于识别和定量各种化合物。这在环境监测中尤为有益，因为精确检测污染物是必要的。医疗应用也受益于reduction of linewidth（线宽的减少）。例如，在激光手术中，线宽较窄的激光可以在有效靶向目标区域的同时最小化对周围组织的热损伤。这种精确性对于激光眼科手术或肿瘤切除等程序至关重要，在这些程序中保护健康组织对患者恢复至关重要。研究人员不断致力于改善激光系统，以实现最佳的线宽减少，从而提高医疗治疗的安全性和有效性。此外，reduction of linewidth（线宽的减少）不仅在实际应用中相关，而且在理解激光动力学方面具有理论意义。研究线宽如何影响激光的相干特性可以为理解量子光学和光子学提供新的见解。通过探索线宽生成背后的基本原理，科学家可以开发出突破当前技术界限的新型激光设计。总之，reduction of linewidth（线宽的减少）是光学和激光技术研究的重要领域，影响着电信、光谱学和医学等多个领域。随着对高性能激光器的需求不断上升，实现更窄线宽的持续努力将在推动实际应用和理论理解方面发挥重要作用。追求激光性能卓越的旅程是一段激动人心的旅程，承诺将解锁未来的新可能性和创新。