antiparallel coupling

简明释义

反并联接法

英英释义

例句

1.In the design of quantum computers, antiparallel coupling 反平行耦合 is essential for maintaining coherence between qubits.

在量子计算机的设计中，antiparallel coupling 反平行耦合 对于维持量子比特之间的相干性至关重要。

2.The antiparallel coupling 反平行耦合 of magnetic spins can lead to a reduction in energy states.

磁自旋的antiparallel coupling 反平行耦合 可以导致能量状态的减少。

3.The researchers utilized antiparallel coupling 反平行耦合 to enhance the stability of their protein complexes.

研究人员利用antiparallel coupling 反平行耦合 来增强他们蛋白质复合物的稳定性。

4.When analyzing the behavior of coupled oscillators, antiparallel coupling 反平行耦合 can produce interesting dynamic patterns.

在分析耦合振荡器的行为时，antiparallel coupling 反平行耦合 可以产生有趣的动态模式。

5.In molecular biology, antiparallel coupling 反平行耦合 is often observed in the structure of DNA strands.

在分子生物学中，antiparallel coupling 反平行耦合 通常在DNA链的结构中观察到。

作文

In the study of physics and engineering, the concept of antiparallel coupling plays a significant role in understanding how different systems interact with one another. The term antiparallel coupling refers to a specific arrangement where two elements or components are aligned in opposite directions. This configuration is particularly evident in various fields, such as mechanics, electronics, and even biological systems. For instance, in the context of molecular biology, DNA strands are often described as being antiparallel, meaning that one strand runs in the 5' to 3' direction while the other runs from 3' to 5'. This arrangement is crucial for the processes of replication and transcription, as it allows for the proper pairing of nucleotides and the formation of stable structures. In mechanical systems, antiparallel coupling can be observed in the design of gears and pulleys. When two gears are coupled in an antiparallel manner, they rotate in opposite directions, which can be advantageous for transmitting power and motion efficiently. This principle is utilized in various machines and devices, ensuring that energy is transferred effectively without unnecessary losses. Understanding the dynamics of antiparallel coupling allows engineers to design more efficient systems that operate smoothly under varying conditions.Moreover, in the realm of electronics, antiparallel coupling is vital in the functioning of diodes and transistors. For example, when two diodes are connected in an antiparallel configuration, they can conduct current in both directions, which is essential for creating rectifiers and other electronic circuits. This arrangement enhances the performance of electronic devices, making them more versatile and reliable in their operations.The significance of antiparallel coupling extends beyond technical applications; it also serves as a metaphor for collaboration and teamwork in social contexts. Just as elements in an antiparallel arrangement work together to achieve a common goal, individuals with diverse perspectives and skills can complement each other, leading to innovative solutions and successful outcomes. This analogy highlights the importance of understanding and respecting differences in order to foster a harmonious and productive environment.In conclusion, antiparallel coupling is a fundamental concept that finds its application in various scientific and engineering disciplines. Whether it is in the structure of DNA, the mechanics of gears, or the functionality of electronic components, this arrangement is essential for the efficient operation of systems. Additionally, the metaphorical implications of antiparallel coupling remind us of the value of collaboration and diversity in achieving success. As we continue to explore and apply this concept across different fields, we gain deeper insights into the interconnectedness of systems and the importance of working together towards common objectives.

在物理和工程的研究中，反平行耦合的概念在理解不同系统如何相互作用方面发挥着重要作用。术语反平行耦合指的是一种特定的排列，其中两个元素或组件在相反的方向上对齐。这种配置在机械、电子甚至生物系统等各个领域都特别明显。例如，在分子生物学的背景下，DNA链常常被描述为反平行的，这意味着一条链以5'到3'的方向运行，而另一条链则从3'到5'的方向运行。这种排列对于复制和转录过程至关重要，因为它允许核苷酸的正确配对并形成稳定的结构。在机械系统中，反平行耦合可以在齿轮和滑轮的设计中观察到。当两个齿轮以反平行的方式耦合时，它们会朝相反的方向旋转，这在有效传递动力和运动方面是有利的。这一原理在各种机器和设备中得到应用，确保能量在不同条件下有效传递而不产生不必要的损失。理解反平行耦合的动态使工程师能够设计出更高效的系统，使其在变化的条件下平稳运行。此外，在电子学领域，反平行耦合在二极管和晶体管的功能中至关重要。例如，当两个二极管以反平行配置连接时，它们可以在两个方向上导电，这对于创建整流器和其他电子电路是至关重要的。这种排列增强了电子设备的性能，使其在操作上更加多样化和可靠。反平行耦合的重要性不仅限于技术应用；它还在社会背景中作为合作和团队工作的隐喻。正如反平行排列中的元素共同努力实现共同目标一样，具有不同观点和技能的个体可以相互补充，从而导致创新解决方案和成功的结果。这一类比强调了理解和尊重差异的重要性，以促进和谐和高效的环境。总之，反平行耦合是一个基本概念，在各种科学和工程学科中都有应用。无论是在DNA的结构中、齿轮的机械作用中，还是在电子元件的功能中，这种排列对于系统的高效运行至关重要。此外，反平行耦合的隐喻意义提醒我们，在实现成功的过程中，合作和多样性的价值。随着我们继续在不同领域探索和应用这一概念，我们深入洞察了系统之间的相互联系以及共同朝着共同目标努力的重要性。