ND:非耗散的
在物理学等学术研究领域,“Non-Dissipative”一词常简写为“ND”,以方便快速书写与表达。该术语的中文释义为“非耗散的”,通常用于描述能量或信息在系统中传递时没有损耗的理想过程,在热力学、电路分析和波动理论等学科中具有重要应用价值。
Non-Dissipative的英文发音
例句
- This persistent current is a thermodynamic equilibrium, non-dissipative and observable current, flowing around a non-superconducting ring.
- 这种电流是存在于非超导介观环中的一种热力学平衡、非耗散的(ND)宏观可观测电流。
- Small disturbances are introduced on both sides of a steady, non-dissipative, plane shock wave.
- 在无耗散介质的定常、平面激波两边产生了小扰动。
- For the non-dissipative circuit, the general method to deal with the quantum fluctuations of the current in the non-dissipative coupled nanometer circuit of any meshes with source is achieved by using the theory of quadratic form and the all quantum theories.
- 对于非耗散电路,本文利用二次型理论,并结合电荷是离散化的全量子理论,总结出了求解任意网孔纳米含源非耗散耦合电路中电流的量子涨落的一般性方法。
- On the basis of the charge discreteness, the non-dissipative coupled mesoscopic circuit is quantized, the energy spectrum of the circuit is given under non-interaction Hamilton eigenstate basis vectors.
- 基于电荷的不连续性,对无耗散介观耦合电路进行量子化,在无相互作用Hamilton本征态基矢下给出介观电路的能谱关系;
- Starting from the Hamilton which is given by the coupling both of charge and current in the non-dissipative mesoscopic capacitance and inductance coupling circuit, the method of quantization in the circuit is obtained, and based on it we also discussed two particular situations.
- 由无耗散介观电感、电容共同耦合的双网孔电路具有电荷和电流双运动耦合的哈密顿出发,讨论无耗散介观电感、电容共同耦合电路的量子化方案,在此基础上进一步讨论两种特殊情况。
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