pulsed technique

简明释义

脉冲技术

英英释义

例句

1.Using a pulsed technique, researchers were able to study the effects of light on plant growth.

研究人员使用脉冲技术研究光对植物生长的影响。

2.In this experiment, we applied a pulsed technique to measure the response time of the sensors.

在这个实验中，我们应用了脉冲技术来测量传感器的响应时间。

3.The doctor used a pulsed technique to enhance the effectiveness of the laser treatment.

医生使用了脉冲技术来增强激光治疗的效果。

4.The pulsed technique allows for precise control over the amount of energy delivered in each pulse.

这种脉冲技术允许对每个脉冲中传递的能量进行精确控制。

5.The pulsed technique is commonly used in ultrasound imaging to improve image clarity.

在超声成像中，脉冲技术常用于改善图像清晰度。

作文

The field of science and technology has made remarkable strides in recent years, particularly with the advent of innovative methodologies that enhance our understanding of complex phenomena. One such methodology is the pulsed technique, a powerful approach used across various disciplines, including physics, engineering, and medical imaging. The pulsed technique refers to a method of delivering energy in short bursts or pulses, which can be more effective than continuous energy delivery for certain applications.In medical imaging, for instance, the pulsed technique is essential in magnetic resonance imaging (MRI). By sending short, controlled pulses of radiofrequency energy into the body, MRI machines can create detailed images of internal structures without the harmful effects of ionizing radiation. This technique allows for high-resolution images, enabling doctors to diagnose and monitor diseases with greater accuracy.Similarly, in the field of laser technology, the pulsed technique plays a crucial role. Lasers can be operated in a continuous wave mode or in a pulsed mode. When using the pulsed technique, lasers emit energy in rapid bursts, which can be advantageous for procedures such as laser surgery. The pulsed energy can minimize thermal damage to surrounding tissues, allowing for more precise and safer interventions.Moreover, the pulsed technique is also utilized in materials science for processes like sintering and welding. In these applications, the delivery of energy in pulses can lead to improved material properties and stronger bonds between components. By controlling the timing and intensity of the energy pulses, engineers can optimize the process to achieve desired outcomes.The versatility of the pulsed technique extends beyond these fields. It is also employed in telecommunications, where data is transmitted in pulses of light through fiber optic cables. This method allows for high-speed internet connections and efficient data transfer, significantly impacting how we communicate and access information today.As we move forward, the importance of the pulsed technique will likely continue to grow. Researchers are constantly exploring new applications and refining the existing methods to enhance their effectiveness. For example, advancements in computational techniques and algorithms may allow for better control and analysis of pulsed energy delivery, leading to even more innovative solutions in various industries.In conclusion, the pulsed technique represents a significant advancement in how we deliver energy across multiple domains. Its ability to provide precise control and minimize unwanted side effects makes it an invaluable tool in modern science and technology. As we continue to explore the potential of this technique, we can expect to see further innovations that will transform our understanding and capabilities in numerous fields. The future is indeed bright for the pulsed technique, and its impact will resonate for years to come.

科学和技术领域在近年来取得了显著的进步，特别是在创新方法的出现上，这些方法增强了我们对复杂现象的理解。其中一种方法是脉冲技术，这是一种强大的方法，广泛应用于物理学、工程学和医学成像等多个学科。脉冲技术指的是以短暂的爆发或脉冲形式传递能量的方法，这在某些应用中可能比持续能量传递更有效。例如，在医学成像中，脉冲技术在磁共振成像（MRI）中至关重要。通过向身体发送短暂、受控的射频能量脉冲，MRI设备可以生成内部结构的详细图像，而不会产生电离辐射的有害影响。这种技术能够提供高分辨率图像，使医生能够更准确地诊断和监测疾病。同样，在激光技术领域，脉冲技术也发挥着关键作用。激光可以以连续波模式或脉冲模式工作。当使用脉冲技术时，激光以快速爆发的方式发出能量，这对于激光手术等程序来说是有利的。脉冲能量可以最小化对周围组织的热损伤，从而实现更精确和更安全的干预。此外，脉冲技术还被用于材料科学中的烧结和焊接等过程。在这些应用中，以脉冲方式传递能量可以提高材料性能和组件之间的结合强度。通过控制能量脉冲的时机和强度，工程师可以优化过程，以实现所需的结果。脉冲技术的多功能性不仅限于这些领域。它还被用于电信领域，通过光纤电缆以光脉冲的形式传输数据。这种方法允许高速互联网连接和高效的数据传输，对我们今天的通信和信息获取产生了重大影响。随着我们向前发展，脉冲技术的重要性可能会继续增长。研究人员不断探索新的应用并改进现有方法，以增强其有效性。例如，计算技术和算法的进步可能允许更好地控制和分析脉冲能量传递，从而在各个行业中带来更具创新性的解决方案。总之，脉冲技术代表了我们在多个领域传递能量方式的重要进步。其提供精确控制和最小化不必要副作用的能力使其成为现代科学和技术中不可或缺的工具。随着我们继续探索这一技术的潜力，我们可以期待看到进一步的创新，这将改变我们在众多领域的理解和能力。脉冲技术的未来无疑是光明的，其影响将在未来几年内持续回响。