为了获得更加清晰的光谱线,他们成功发现了非线性方法像磁性饱和和双光子光谱学。
Tomget sharper spectral lines, they started by successfully developing nonlinear methods such as saturation or two-photon spectroscopy.
并对制得的二酯基磁性液体饱和磁化强度、密度、粘度、稳定性和粒子直径等性能参数进行表征实验。
The experiments were carried on the synthesized diester-based magnetic fluids to characterize their saturation magnetization, density, viscosity, stability and the diameter of particles.
磁场的强度,为在强磁性的物质达到饱和之后,把它的磁化作用缩小到零所必需。
The intensity of the magnetic field needed to reduce the magnetization of a ferromagnetic material to zero after it has reached saturation.
在高密度数据存储应用中,所述强磁材料区含有高饱和磁化强度的纳米磁性微粒。
In the application of high density data storage, the strong magnetic material section contains nanometer magnetic particulate with high saturation magnetization.
目的探讨葡聚糖氧化铁磁性纳米颗粒的制备对其有效粒径和比饱和磁化强度的影响。
Objective To investigate the effect of preparation conditions on the effective diameter and saturation magnetization of dextran magnetic iron oxide nanoparticles.
燃煤飞灰饱和磁化强度与其中的磁性当量铁相对含量存在明显的正相关性。
The positive correlation between equivalent magnetic iron oxide content and saturation magnetization of coal-fired fly ash is significant.
现在,运用这一技术已成功制备出过饱和固溶体、非晶、金属间化合物、纳米晶材料和超导材料、磁性材料等。
Up to now, the technology has been used to prepare supersaturated solid solution, amorphous alloys, intermetallic compound, nanocrystalline, magnetism materials, superconductor materials, and etc.
纳米复合永磁材料兼具硬磁性相的高矫顽力和软磁性相的高饱和磁化强度,磁性能优异。
Nanocomposite permanent magnet exhibits excellent magnetic properties combining high coercivity of permanent magnetic phase with high saturation magnetization of soft magnetic phase.
在选择发热部件的材料时,应主要考虑具有磁饱和度高、导磁特性高,并且剩磁小的铁磁性材料,以便获得较大的发热功率。
The ferromagnetic materials which has high magnetic saturation, high characteristics of magnetic conductive and low remanence should be chosen first for the higher heat power.
结果表明,所得磁性粒子具有粒径均一可控、饱和磁化率高、磁响应性可控、比表面积大和超顺磁等优点,基本满足磁性色谱分离固定相的要求。
The results showed that the magnetic microspheres were uniform, well dispersed, highly porous and magnetizable, which make them ideal for use as packing materials in chromatography.
本文针对饱和磁性材料,推导其磁化曲线的定性描述。
This paper studies the derivation of a qualitative description for the magnetization curve of saturable magnetic materials.
首先,在利用自旋极化电流来驱动之磁性记忆体的研究中,发现藉由改变自 由层钴铁硼的覆盖层可以用来调变它的饱和磁化量以及自旋阻尼系数。
Firstly, in the concept of spin torque transfer MRAM, we can manipulate the damping constant and saturation magnetization of CoFeB by simply adjusting the capping layers.
首先,在利用自旋极化电流来驱动之磁性记忆体的研究中,发现藉由改变自 由层钴铁硼的覆盖层可以用来调变它的饱和磁化量以及自旋阻尼系数。
Firstly, in the concept of spin torque transfer MRAM, we can manipulate the damping constant and saturation magnetization of CoFeB by simply adjusting the capping layers.
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