The main feature of half_metallic materials is its high spin polarization up to 100%.
半金属材料的一个重要特征为具有高达100%的传导电子自旋极化率。
It was found that electronic spin polarization is closely related to nuclear spin orientations.
核自旋-自旋偶合常数的计算结果表明电子的自旋极化与原子核的自旋取向有密切关系。
The phase diagram of a homogenous ultracold Fermi gas with spin polarization is studied at unitarity.
研究了超冷均匀极化的费米气体在共振区的相图。
Some of these electrons travel through the DNA forest and are fed into a device that measures their spin polarization .
其中的一部分电子穿过DNA“森林”后,注入一个可以测量其自旋极化率的仪器中。
Spin-polarized properties, including the spin scattering length and the spin polarization, are investigated at the temperature ranging from 77 to 300k.
在77 ~ 30 0 K的温度范围内,对自旋散射长度、自旋极化率等自旋极化输运特性进行了研究。
From then on, spintronics, a new branch which studies, utilizes and control the electron transport of spin polarization, has become the hotspot of science community.
从此之后,自旋电子学-一门以研究、利用和控制自旋极化的电子输运过程为核心的新兴学科,成为了科学界研究的热点。
Further analysis of the contact interface and a more complete theory are needed to extract a reliable spin polarization message with the point contact Andreev reflection method.
利用点接触反射方法获得可靠的自旋极化信息还有赖于接触界面特征的进一步分析。而一个更切合实际的、更完善的理论成为迫切的需要。
Moreover, electron-spin polarization are relevant to the structure parameters of the system, so we can control spin-polarized electronic behavior by means of adjusting ferromagnetic stripes.
而且,电子的自旋极化度与系统的结构参数密切相关,因此通过调整磁条可以调控系统中自旋极化电子的行为。
The challenge, however, is extracting the spins to form a spin-polarized current and injecting them into a circuit without the polarization degrading along the way.
唯一的挑战是,如何提取自旋来形成一个自旋极化的电流,然后注入到电路中并保持极化在沿途不发生退化。
The production of spin-polarized electrons and the modulation of polarization direction with liquid crystal variable retarder (LCVR) are discussed.
LCVR控制入射光子的偏振度,从而实现对自旋极化电子束极化方向的调制。
The results show that: (i) the spin-polarization of electron can not be produced in the anti-parallel magnetic barriers structure at zero bias voltage;
结果表明:零偏压下,电子在反平行等强磁垒结构中输运不会产生自旋极化;
We show that measuring the polarization of hyperon in the lepton induced reactions is an ideal way to study the spin transfer in high energy hadronization processes.
指出在轻子诱发反应中测量产生超子的极化是研究高能强子化过程自旋转移的理想途径 。
The Monte Carlo Study of W Boson Polarization and t(?) Spin Correlation int(?) Dileptonic Decay Channel;
玻色子极化和t(?)自旋关联在t(?)双轻子衰变道中的蒙特卡罗研究。
The Monte Carlo Study of W Boson Polarization and t(?) Spin Correlation int(?) Dileptonic Decay Channel;
玻色子极化和t(?)自旋关联在t(?)双轻子衰变道中的蒙特卡罗研究。
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