stray field

简明释义

杂散场

英英释义

例句

1.To minimize errors, it's crucial to shield against the stray field during experiments.

为了最小化误差，在实验过程中屏蔽杂散场是至关重要的。

2.The technician adjusted the equipment to reduce the impact of the stray field.

技术人员调整了设备，以减少杂散场的影响。

3.Understanding the stray field can help improve the performance of electronic devices.

理解杂散场可以帮助提高电子设备的性能。

4.The engineers had to account for the effects of the stray field in their calculations.

工程师们必须在计算中考虑到杂散场的影响。

5.In the lab, we noticed that the stray field was interfering with our measurements.

在实验室，我们注意到杂散场干扰了我们的测量。

作文

In the realm of physics and engineering, the term stray field refers to unwanted electromagnetic fields that can interfere with the operation of electronic devices. These stray fields can originate from various sources, including power lines, radio towers, and even the devices themselves. Understanding and managing stray field effects is crucial for ensuring the reliability and performance of sensitive electronic equipment.One of the primary concerns associated with stray field interference is its impact on communication systems. For instance, in wireless communication, the presence of stray electromagnetic fields can cause signal degradation, leading to poor reception and transmission quality. Engineers must take into account these potential disruptions when designing antennas and other communication devices. They often employ shielding techniques to minimize the effects of stray field, ensuring that the signals remain clear and uninterrupted.Moreover, in medical applications, stray field can pose significant risks. Medical imaging technologies, such as MRI machines, rely on precise magnetic fields to produce accurate images of the human body. Any stray magnetic fields can distort these images, leading to misdiagnoses or incorrect treatments. Therefore, medical engineers must rigorously test their equipment to identify and mitigate any sources of stray fields before they are used in clinical settings.The implications of stray field extend beyond just technical challenges; they also raise safety concerns. In industrial environments, machinery that generates strong magnetic fields can inadvertently create stray fields that affect nearby workers or equipment. This is particularly relevant in sectors like manufacturing and construction, where heavy machinery is frequently operated. Employers must implement safety measures to protect workers from exposure to harmful stray fields, which may include establishing safe distance protocols or using personal protective equipment.Furthermore, the increasing prevalence of electronic devices in our daily lives has made the management of stray field more critical than ever. As we become more reliant on technology, the potential for interference from stray fields increases. This necessitates ongoing research and development to create more effective shielding materials and techniques. Engineers and scientists are exploring innovative solutions, such as metamaterials, which can redirect or absorb stray fields, thereby enhancing device performance.In conclusion, the concept of stray field encompasses a range of challenges across different fields, from telecommunications to healthcare and industrial safety. As technology continues to evolve, so too will the strategies for managing these unwanted electromagnetic fields. Understanding the nature of stray field and its implications is essential for engineers and professionals working in any field that relies on electronic devices. By addressing these challenges head-on, we can ensure that our technological advancements are both reliable and safe for all users.

在物理和工程领域，术语stray field指的是不必要的电磁场，这些电磁场可能会干扰电子设备的操作。这些杂散场可能来源于各种源，包括电力线、无线电塔，甚至设备本身。理解和管理stray field效应对于确保敏感电子设备的可靠性和性能至关重要。与stray field干扰相关的主要关注点之一是其对通信系统的影响。例如，在无线通信中，杂散电磁场的存在可能导致信号降级，从而导致接收和传输质量差。工程师在设计天线和其他通信设备时必须考虑这些潜在的干扰。他们通常采用屏蔽技术来最小化stray field的影响，以确保信号保持清晰和不间断。此外，在医疗应用中，stray field可能带来重大风险。医学成像技术，如MRI机器，依赖于精确的磁场来产生人体的准确图像。任何杂散磁场都可能扭曲这些图像，导致误诊或错误治疗。因此，医疗工程师必须严格测试他们的设备，以识别和减轻任何杂散场的来源，然后才能在临床环境中使用。stray field的影响不仅限于技术挑战；它们还引发安全问题。在工业环境中，产生强磁场的机械设备可能无意中产生杂散场，影响附近的工人或设备。这在制造和建筑等行业尤为相关，因为重型机械经常被操作。雇主必须实施安全措施，以保护工人免受有害杂散场的影响，这可能包括建立安全距离协议或使用个人防护装备。此外，随着我们日常生活中电子设备的普及，管理stray field变得比以往任何时候都更为关键。随着我们对技术的依赖增加，来自杂散场的干扰潜力也在增加。这需要持续的研究和开发，以创造更有效的屏蔽材料和技术。工程师和科学家正在探索创新解决方案，例如超材料，这些材料可以重定向或吸收杂散场，从而增强设备的性能。总之，stray field的概念涵盖了不同领域的一系列挑战，从电信到医疗保健和工业安全。随着技术的不断发展，应对这些不必要的电磁场的策略也将不断演变。理解stray field的性质及其影响对于在任何依赖电子设备的领域工作的工程师和专业人员至关重要。通过正面应对这些挑战，我们可以确保我们的技术进步对所有用户都是可靠和安全的。