acoustic coupling

简明释义

语音连接

英英释义

例句

1.The success of the ultrasound imaging technique relies heavily on acoustic coupling to ensure sound waves penetrate the skin effectively.

超声成像技术的成功在很大程度上依赖于声学耦合，以确保声波有效穿透皮肤。

2.Proper gel application enhances acoustic coupling during medical procedures.

在医疗程序中，适当的凝胶涂抹可以增强声学耦合。

3.The engineers focused on optimizing acoustic coupling in the design of the new sonar system.

工程师们专注于在新声纳系统的设计中优化声学耦合。

4.In audio systems, acoustic coupling can significantly affect sound quality and clarity.

在音频系统中，声学耦合会显著影响声音质量和清晰度。

5.In this experiment, we need to improve the acoustic coupling between the transducer and the sample material.

在这个实验中，我们需要改善传感器与样品材料之间的声学耦合。

作文

Acoustic phenomena play a significant role in many fields, including engineering, music, and medicine. One of the essential concepts within this realm is acoustic coupling, which refers to the transfer of sound energy between two mediums or systems. This phenomenon can be observed in various applications, from musical instruments to medical imaging technologies. Understanding acoustic coupling is crucial for optimizing performance and achieving desired outcomes in these areas.In musical instruments, acoustic coupling occurs when sound waves generated by one component are transmitted to another, enhancing the overall sound quality. For example, in a guitar, the vibration of the strings generates sound waves that are transferred to the body of the instrument. The body acts as a resonator, amplifying the sound through acoustic coupling. This interaction is vital for creating the rich tones that characterize different types of guitars. Musicians and instrument makers must consider acoustic coupling when designing instruments to ensure they produce the desired sound quality and volume.Similarly, acoustic coupling is a critical concept in the field of medicine, particularly in ultrasound imaging. Ultrasound machines utilize high-frequency sound waves to create images of internal body structures. The efficiency of this imaging process depends on the acoustic coupling between the ultrasound transducer and the skin. A gel is often used to fill the air gap between the transducer and the skin, improving acoustic coupling and allowing for clearer images. Without proper acoustic coupling, the sound waves would not transmit effectively, leading to poor-quality images and potentially misdiagnoses.Furthermore, acoustic coupling is also relevant in architectural acoustics, where the design of a space can significantly impact sound quality. Concert halls and theaters are designed with acoustic coupling in mind to ensure that sound travels efficiently throughout the space. The materials used in construction, the shape of the room, and the placement of speakers all contribute to how sound waves interact with each other and the audience. By understanding acoustic coupling, architects and sound engineers can create environments that enhance the listening experience, making performances more enjoyable for audiences.In conclusion, acoustic coupling is a fundamental concept that influences various fields, including music, medicine, and architecture. Its role in the transfer of sound energy between different mediums is crucial for optimizing performance and achieving desired results. Whether it is enhancing the sound quality of musical instruments, improving the clarity of medical imaging, or designing acoustically effective spaces, a thorough understanding of acoustic coupling is essential. As technology advances and our understanding of acoustics deepens, the applications of acoustic coupling will continue to expand, offering new possibilities for innovation and improvement in numerous domains.

声耦合是一个重要的概念，涉及到声音能量在两个介质或系统之间的传递。这个现象可以在许多应用中观察到，从乐器到医学成像技术。理解声耦合对于优化性能和实现预期结果至关重要。在乐器中，声耦合发生在一个组件产生的声波被传输到另一个组件，从而增强整体音质。例如，在吉他中，弦的振动产生声波，这些声波被传递到乐器的主体。主体作为共鸣体，通过声耦合放大声音。这种相互作用对于创造不同类型吉他的丰富音调至关重要。音乐家和乐器制造者必须考虑声耦合，以确保他们的乐器产生所需的音质和音量。类似地，声耦合在医学领域也至关重要，特别是在超声成像中。超声机器利用高频声波创建内部结构的图像。这一成像过程的效率依赖于超声换能器与皮肤之间的声耦合。通常使用凝胶填充换能器和皮肤之间的空气间隙，以改善声耦合并允许更清晰的图像。如果没有适当的声耦合，声波将无法有效传输，从而导致图像质量差，可能导致误诊。此外，声耦合在建筑声学中也相关，空间的设计会显著影响声音质量。音乐厅和剧院的设计考虑了声耦合，以确保声音在整个空间中有效传播。建筑材料、房间的形状和扬声器的放置都对声波如何相互作用以及与观众的关系产生影响。通过理解声耦合，建筑师和声音工程师可以创造出增强听觉体验的环境，使观众的表演更加愉悦。总之，声耦合是一个基本概念，影响着音乐、医学和建筑等多个领域。它在不同介质之间声音能量传递中的作用对于优化性能和实现预期结果至关重要。无论是增强乐器的音质、改善医学成像的清晰度，还是设计声学有效的空间，深入理解声耦合都是必不可少的。随着技术的进步和我们对声学的理解加深，声耦合的应用将继续扩展，为多个领域的创新和改进提供新的可能性。