detuning
简明释义
n. 去谐
v. [力]解谐(detune 的 ing 形式)
英英释义
单词用法
去调谐过程 | |
去调谐效果 | |
去调谐频率 | |
去调谐信号 | |
去调谐乐器 | |
为了稳定性而去调谐 |
同义词
| 调低 | The musician is tuning down the guitar to achieve a deeper sound. | 音乐家正在调低吉他以获得更深的音色。 | |
| 重新调音 | 重新调音后,乐器的声音好得多。 | ||
| 错误调音 | The mis-tuning of the piano affected the overall performance. | 钢琴的错误调音影响了整体演出。 |
反义词
| 调音 | The musician spent hours tuning his guitar before the concert. | 音乐家在音乐会前花了几个小时调音他的吉他。 | |
| 微调 | After testing the system, we performed some fine-tuning to enhance its performance. | 在测试系统后,我们进行了微调以提高其性能。 |
例句
1.The optical detuning, injected field and atomic coherence can inhibit the chaos of the cavity field.
光场失谐量、注入光场和原子相干性可抑制混沌。
2.The bifurcation behavior of the coupled nonlinear normal mode is associated with detuning parameter and mode amplitude, but not with the nonlinear stiffness of uncoupling spring.
耦合非线性模态的分叉既与调谐参数有关又与模态振幅有关,但与非耦合弹簧的非线性刚度无关。
3.Furthermore, we provide numerical simulation of the robustness against variations in the pulse delay, and the detuning.
应用数值方法讨论了脉冲驰豫时间和失谐量对该方法的影响。
4.The increasing of the detuning results in the decrease of the oscillating frequency of the time evolution curve.
失谐量变大使时间演化曲线的振荡频率变慢;
5.The entanglement will be achieved for a longer time when the detuning is small.
在微小失调时,量子态将长时停留在纠缠态。
6.The four - body entanglement changes with the initial state of the system and detuning degree.
并且四体纠缠随着系统的初始态和失谐量的变化而变化。
7.The influence of two mode photon number difference, atomic coherent and detuning on the evolution of the field entropy has been discussed.
分析了双模光子数差、原子相干性及失谐量对场熵演化的影响。
8.The construction of unitary matrixes for quantum computation by means of red and blue detuning transitions in an ion trap is first discussed.
该文首先讨论在离子阱中,如何利用红、蓝失谐跃迁来构造量子计算所需的各种幺正矩阵。
9.These research results become the theory foundation of all-optical signal processing technologies based on the combination of SOA and detuning filter.
该研究为所有基于SOA和失谐滤波器组合模型的全光信号处理技术提供了理论依据。
10.In order to achieve a different sound, the producer experimented with detuning 调音 the synthesizer.
为了获得不同的声音,制作人尝试对合成器进行调音。
11.The engineer suggested detuning 调音 the circuit to improve its performance.
工程师建议对电路进行调音以提高其性能。
12.After several performances, the guitar needed detuning 调音 to maintain its sound quality.
经过几场演出后,吉他需要进行调音以保持音质。
13.The musician noticed that the piano was slightly out of tune, requiring some detuning 调音 before the concert.
音乐家注意到钢琴有些走音,需要在音乐会前进行一些调音。
14.The orchestra had to undergo detuning 调音 before the final rehearsal.
乐团在最后一次排练前必须进行调音。
作文
In the world of music and sound engineering, the term detuning refers to the intentional alteration of the pitch of a musical instrument or sound wave. This process can create a variety of effects that enhance the listening experience, making it richer and more complex. For instance, when two instruments are slightly out of tune with each other, the resulting sound can produce a phenomenon known as 'beating', where the listener hears a wavering effect due to the interference of the sound waves. This can be particularly effective in genres such as ambient, electronic, and experimental music.
Beyond its application in music, detuning can also be found in the realm of sound synthesis. Synthesizers often allow musicians to manipulate the tuning of oscillators, creating unique sounds that would not be possible with standard tuning. By slightly adjusting the frequency of one oscillator relative to another, artists can produce harmonics and overtones that add depth to their compositions. This technique is widely used in modern music production, allowing for innovative sound design that captivates audiences.
However, detuning is not limited to just musical applications; it also has implications in various fields such as acoustics and physics. In acoustic engineering, detuning refers to the adjustment of resonant frequencies in structures to minimize unwanted vibrations or sounds. By strategically altering the tuning of materials, engineers can create environments that are more conducive to sound clarity and quality. This principle is often applied in concert halls and recording studios, where achieving optimal acoustics is crucial for the performance and recording of music.
Furthermore, detuning can serve as a metaphor in different contexts. In life, for example, we may find ourselves needing to detune our expectations or perceptions to better align with reality. This process of adjustment can lead to personal growth and a deeper understanding of the world around us. Just as musicians adjust their instruments to create harmonious sounds, individuals may need to recalibrate their thoughts and beliefs to achieve a more balanced perspective.
In conclusion, detuning plays a significant role in the realms of music, sound engineering, and even personal development. Whether it is through the intentional manipulation of sound waves to create captivating musical experiences, the engineering of acoustically optimized spaces, or the metaphorical adjustment of one’s mindset, detuning is a powerful concept. Embracing this idea can lead to greater creativity and a more profound appreciation for the intricate layers of sound and life itself.
在音乐和声音工程的世界中,术语detuning指的是故意改变乐器或声波音高的过程。这一过程可以创造出多种效果,增强听觉体验,使其更加丰富和复杂。例如,当两种乐器的音调略微不一致时,所产生的声音会产生一种称为“拍动”的现象,听众会因声波的干涉而听到一种颤动的效果。这在环境音乐、电子音乐和实验音乐等流派中尤其有效。
除了在音乐中的应用外,detuning也可以在声音合成领域找到。合成器通常允许音乐家操纵振荡器的音调,从而创造出独特的声音,这些声音在标准调音下是无法实现的。通过相对调整一个振荡器的频率,艺术家可以产生谐波和泛音,为他们的作品增添深度。这一技术在现代音乐制作中被广泛使用,允许创新的声音设计来吸引观众。
然而,detuning并不仅限于音乐应用;它在声学和物理学等多个领域也有影响。在声学工程中,detuning指的是调整结构中的共振频率,以最小化不必要的振动或声音。通过战略性地改变材料的调音,工程师可以创建更有利于声音清晰度和质量的环境。这一原理常用于音乐厅和录音室,在这些地方,达到最佳声学效果对音乐的演出和录制至关重要。
此外,detuning在不同的语境中也可以作为隐喻。在生活中,例如,我们可能发现自己需要detune我们的期望或看法,以更好地与现实对齐。这种调整过程可以导致个人成长和对周围世界更深刻的理解。正如音乐家调整乐器以创造和谐的声音,个人也可能需要重新校准他们的思想和信念,以实现更平衡的视角。
总之,detuning在音乐、声音工程乃至个人发展领域都扮演着重要角色。无论是通过故意操纵声波创造迷人的音乐体验,还是工程上优化声学空间,或是比喻性地调整个人心态,detuning都是一个强大的概念。接受这一理念可以带来更大的创造力,以及对声音和生活本身复杂层次的更深刻欣赏。
