laser output power

简明释义

激光输出功率

英英释义

例句

1.The manufacturer specified the laser output power required for optimal performance in their product manual.

制造商在产品手册中指定了最佳性能所需的激光输出功率。

2.The laser output power was increased to improve the visibility of the laser beam during the demonstration.

激光输出功率被提高，以改善演示过程中激光束的可见性。

3.The technician adjusted the laser output power to enhance the cutting efficiency of the machine.

技术员调整了激光输出功率以提高机器的切割效率。

4.In medical applications, the laser output power must be carefully controlled to avoid damaging surrounding tissues.

在医疗应用中，激光输出功率必须严格控制，以避免损伤周围组织。

5.Engineers often measure the laser output power to ensure that the device meets safety standards.

工程师们通常测量激光输出功率以确保设备符合安全标准。

作文

The term laser output power refers to the amount of energy emitted by a laser beam per unit time. This measurement is crucial in various fields, including telecommunications, medical applications, and industrial processes. Understanding laser output power is essential for optimizing the performance of laser systems and ensuring they meet specific operational requirements.In telecommunications, for instance, lasers are used to transmit data over fiber optic cables. The laser output power must be carefully controlled to ensure that the signal can travel long distances without degradation. If the power is too low, the signal may weaken and become unreadable. Conversely, if the power is too high, it can lead to excessive signal distortion or even damage to the optical fibers. Therefore, engineers must strike a balance when setting the laser output power to maintain high-quality data transmission.In the medical field, lasers are increasingly used for surgical procedures, cosmetic treatments, and diagnostic tools. The laser output power plays a vital role in determining the effectiveness of these treatments. For example, in laser eye surgery, precise control of the laser output power is necessary to ensure that the laser can reshape the cornea without causing harm to surrounding tissues. Surgeons must be trained to adjust the laser output power according to the specific needs of each patient, making this aspect of laser technology critical for successful outcomes.Industrial applications also rely heavily on the manipulation of laser output power. Lasers are used for cutting, welding, and engraving materials such as metals, plastics, and wood. In these scenarios, the appropriate laser output power is essential to achieve clean cuts and strong welds. Too little power may result in incomplete cuts, while too much power can cause excessive melting or burning of the material. Thus, operators must have a thorough understanding of how to adjust the laser output power based on the material being processed and the desired results.Moreover, advancements in laser technology continue to push the boundaries of what is possible with laser output power. Researchers are constantly exploring new methods to increase efficiency and precision. For example, developments in fiber lasers have allowed for higher laser output power with improved beam quality, enabling more complex applications in both industrial and medical settings. As technology evolves, the importance of understanding and managing laser output power will only grow.In conclusion, the concept of laser output power is integral to the effective use of lasers across various industries. Whether in telecommunications, medicine, or manufacturing, controlling and optimizing laser output power is essential for achieving desired outcomes. As we continue to innovate and advance in laser technology, the significance of this parameter will remain a focal point for researchers and practitioners alike. Understanding laser output power not only enhances the functionality of laser systems but also ensures safety and efficacy in their applications.

“激光输出功率”这个术语指的是激光束每单位时间发射的能量。这一测量在电信、医疗应用和工业过程等各个领域都至关重要。理解“激光输出功率”对于优化激光系统的性能以及确保它们满足特定操作要求是必不可少的。例如，在电信领域，激光用于通过光纤电缆传输数据。“激光输出功率”必须被仔细控制，以确保信号可以在长距离内传输而不发生衰减。如果功率过低，信号可能会减弱并变得无法读取。相反，如果功率过高，可能会导致信号失真过大，甚至损坏光纤。因此，工程师必须在设置“激光输出功率”时找到一个平衡点，以保持高质量的数据传输。在医疗领域，激光越来越多地用于外科手术、美容治疗和诊断工具。“激光输出功率”在决定这些治疗效果方面起着至关重要的作用。例如，在激光眼科手术中，精确控制“激光输出功率”是必要的，以确保激光能够重塑角膜而不对周围组织造成伤害。外科医生必须经过培训，根据每位患者的具体需求调整“激光输出功率”，因此这一激光技术的方面对成功结果至关重要。工业应用也极度依赖于“激光输出功率”的调节。激光用于切割、焊接和雕刻金属、塑料和木材等材料。在这些场景中，适当的“激光输出功率”对于实现干净的切割和强有力的焊接至关重要。功率过低可能导致切割不完全，而功率过高则可能导致材料过度熔化或燃烧。因此，操作员必须充分了解如何根据所加工材料和所需结果调整“激光输出功率”。此外，激光技术的进步不断推动“激光输出功率”可能性的边界。研究人员不断探索提高效率和精度的新方法。例如，光纤激光器的发展使得在提高“激光输出功率”的同时改善了光束质量，从而在工业和医疗领域实现了更复杂的应用。随着技术的发展，理解和管理“激光输出功率”的重要性只会增加。总之，“激光输出功率”的概念对于各个行业有效使用激光至关重要。无论是在电信、医学还是制造业，控制和优化“激光输出功率”对于实现预期结果是必不可少的。随着我们在激光技术上不断创新和进步，这一参数的重要性将始终是研究人员和从业者关注的焦点。理解“激光输出功率”不仅提升了激光系统的功能性，还确保了其应用的安全性和有效性。