excitation conditions

简明释义

激发条件

英英释义

例句

1.We need to document the excitation conditions 激发条件 used during the experiment for future reference.

我们需要记录实验中使用的激发条件以供将来参考。

2.The researchers adjusted the excitation conditions 激发条件 to enhance the emission intensity of the material.

研究人员调整了激发条件，以增强材料的发射强度。

3.The study focused on the excitation conditions 激发条件 required for optimal laser performance.

这项研究集中于激发条件所需的最佳激光性能。

4.In quantum mechanics, understanding the excitation conditions 激发条件 is crucial for predicting particle behavior.

在量子力学中，理解激发条件对于预测粒子行为至关重要。

5.Different excitation conditions 激发条件 can lead to varying results in spectroscopy experiments.

不同的激发条件可能导致光谱实验中结果的变化。

作文

In the field of physics and engineering, understanding the concept of excitation conditions is crucial for analyzing various systems. Excitation conditions refer to the specific parameters or circumstances under which a system can be stimulated or excited to produce a response. This can involve a wide range of phenomena, from the vibrations of a mechanical structure to the energy levels of atoms in quantum mechanics. For instance, in a vibrating system, the excitation conditions might include the frequency and amplitude of the applied force, which determine how the system will respond. When we consider the behavior of materials under stress, the excitation conditions play a significant role in understanding their failure mechanisms. Engineers must evaluate these conditions to ensure that structures can withstand the forces they encounter during their lifetime. If the excitation conditions exceed the material's limits, it can lead to catastrophic failures, highlighting the importance of proper analysis and design.In the realm of quantum mechanics, excitation conditions are equally vital. When an atom absorbs energy, it transitions from a lower energy state to a higher one. The specific energy levels involved, as well as the external factors such as temperature and pressure, are considered excitation conditions. Understanding these conditions allows scientists to manipulate atomic states for various applications, including lasers and semiconductors.Moreover, in the context of signal processing, excitation conditions can refer to the conditions under which a signal is generated or influenced. For example, in speech recognition technology, the excitation conditions might include the background noise level and the clarity of the speaker's voice. By optimizing these conditions, developers can improve the accuracy of the recognition systems. Additionally, in biological systems, excitation conditions can relate to the stimuli that trigger responses within organisms. For example, neurons in the brain require specific excitation conditions to fire and transmit signals. These conditions can include neurotransmitter levels and the presence of certain ions. Understanding these biological excitation conditions is essential for developing treatments for neurological disorders.In conclusion, excitation conditions are a fundamental concept across various scientific disciplines. They encompass the parameters and environmental factors that influence how systems respond to stimuli. Whether in engineering, quantum physics, signal processing, or biology, recognizing and optimizing excitation conditions is essential for achieving desired outcomes and ensuring the stability and functionality of systems. As we continue to explore and innovate in these fields, a deeper understanding of excitation conditions will undoubtedly lead to advancements that enhance our technological capabilities and improve our understanding of the natural world.

在物理和工程领域，理解激发条件的概念对于分析各种系统至关重要。激发条件是指刺激或激发系统以产生响应的特定参数或环境。这可以涉及从机械结构的振动到量子力学中原子的能级的广泛现象。例如，在一个振动系统中，激发条件可能包括施加力的频率和幅度，这决定了系统将如何响应。当我们考虑材料在应力下的行为时，激发条件在理解其失效机制中发挥着重要作用。工程师必须评估这些条件，以确保结构能够承受其在使用期间遇到的力量。如果激发条件超过材料的极限，可能会导致灾难性的失败，这突显了适当分析和设计的重要性。在量子力学领域，激发条件同样至关重要。当原子吸收能量时，它会从较低的能量状态过渡到较高的能量状态。所涉及的特定能量水平，以及温度和压力等外部因素，被视为激发条件。理解这些条件使科学家能够操纵原子状态以用于激光和半导体等各种应用。此外，在信号处理的背景下，激发条件可以指生成或影响信号的条件。例如，在语音识别技术中，激发条件可能包括背景噪声水平和说话者声音的清晰度。通过优化这些条件，开发人员可以提高识别系统的准确性。另外，在生物系统中，激发条件可以与触发生物体内部响应的刺激有关。例如，大脑中的神经元需要特定的激发条件才能发射并传递信号。这些条件可能包括神经递质水平和某些离子的存在。理解这些生物激发条件对于开发神经系统疾病的治疗至关重要。总之，激发条件是各科学科中的基本概念。它们涵盖影响系统对刺激响应的参数和环境因素。无论是在工程、量子物理、信号处理还是生物学中，识别和优化激发条件对于实现期望结果以及确保系统的稳定性和功能性至关重要。随着我们在这些领域的不断探索和创新，对激发条件的更深入理解无疑将推动我们的技术能力的进步，并改善我们对自然世界的理解。