较全面地阐述了磁化效应对水带来的物理、化学成分的变化。
The chemical and physic as well as inside structural changes in water caused by magnetization are fairly roundly expounded.
显示高磁化效应的磁性铁粒子当磁性线圈不导电时,转矩不会从传动轴传导于从动轴。
Shows high magnetization effect of magnetic iron when magnetic particle coil not conductive, torque transmission shaft transmission from not in driven shaft.
其一是,放在磁场中,它就会产生著名的相对论量子霍尔效应。这(为你的分析家发危险工作津贴)意味着准粒子存在于磁化的石墨烯中。
One of these is that if it is placed in a magnetic field it exhibits a phenomenon known as the relativistic quantum Hall effect.
本文用耦合波理论处理了对称四磁极磁化情况下,微波铁氧体的非互易双折射效应和变极化效应。
Both nonreciprocal birefringent effect and variable polarization effect of microwave ferrite in the symmetrical four-pole magnetized field are discussed in the light of coupling-wave theory.
实验测量了铁氧体传输线对高压电脉冲的前沿锐化效应以及偏置磁化电流对电压波波前传输速度的影响。
The electrical pulse sharpening effect in ferrite transmission lines and the dependence of transmission speed of voltage wavefront on the bias magnetization current have been observed in detail.
自旋塞贝克效应被发现,当热应用于一个磁化的金属。
The spin Seebeck effect is seen when heat is applied to a magnetized metal.
而近藤共振和单电子能级的自旋劈裂都可以通过电极的内部磁化强度来控制,可以用来产生自旋阀效应。
Both the Kondo resonance and the spin-splitting of the single electron levels can be controlled by internal magnetization of the electrodes, which can be used to generate a spin-valve effect.
阐述了磁化处理对水体的生物性质、水中生物的生理特性的影响,以及由此所呈现出来的不同的生物效应。
The effects of magnetic treatment on the biological qualities of water and on the physiological characteristics of aquatics, are described.
在计及磁饱和效应影响时,本文提出了利用电机磁化曲线,使电机参数随机变化的处理方法。
This paper provides a simple and useful method for calcalating motor parameters by means of the no-load characteristic.
第四章,我们研究了磁性隧道结中垂直自旋转移矩效应诱导的磁化翻转特性。
In Chapter 4, perpendicular spin-transfer torque effect on the magnetization switching was investigated in magnetic tunnel junctions (MTJs).
用振动样品磁强计测量它们的磁化曲线,从而计算出磁熵变,估计出磁热效应。
The magnetization curves of these alloys were measured with vibration sample magnetometer, from which magnetic entropy changes were calculated and magnetocaloric effect were evaluated.
所提出的方法将永磁材料包括局部回线在内的磁滞特性包含到数学模型中,在合理的假设下,考虑了计及磁滞效应的“旋转磁化”。
The rotational limit line was introduced to the rotational hardening law and a parameter b was added to the model to reflect the evolution of anisotropy.
所提出的方法将永磁材料包括局部回线在内的磁滞特性包含到数学模型中,在合理的假设下,考虑了计及磁滞效应的“旋转磁化”。
The rotational limit line was introduced to the rotational hardening law and a parameter b was added to the model to reflect the evolution of anisotropy.
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