hyperfine interaction
英
美
n. 超精细相互作用
双语例句
- A study of hyperfine structure of B and Fe interaction in high-boron steel
高硼钢中B与Fe作用的超精细结构研究 - Anisotropic hyperfine interaction of shallow donor electron with Si~ ( 29) nucleus
束缚施主电子与Si~(29)核超精细作用的各向异性 - Hyperfine Interaction For 1~ N Configuration Metal Coordination Compounds ⅰ. Weak-Field Coupling Scheme
I~N组态金属配合物的超精细相互作用&Ⅰ.弱场偶合方案 - The hyperfine interaction between nucleons and holes of silicon, and the nuclear magnetic relaxation in the p-type silicon
硅中空穴与核的超精细作用及p型硅的核磁弛豫 - The variation of the hyperfine interaction parameters and the variable mechanism of the sky-green glaze at liquid helium temperature is studied.
研究了在液氦温度下天青釉超精细相互作用参数的变化和参数变化的机制。 - HYPERFINE INTERACTION STUDY ON Bi-BASED SUPERCONDUCTOR Ultra-micro Carrier The Super Acid
铋系超导体超精细相互作用研究 - We find that the hyperfine interaction is the main decoherence source in quantum state transfer in quantum dot system. 4.
我们发现超精细相互作用对量子态传输的破坏是主要的。 - However we concern why the hyperfine interaction is so large, and how to understand it in the quantum field theory.
但我们更关心超精细相互作用为何会如此之大,在量子场论中又该如何理解。 - The role of the magnetic field is to produce the split of the energy level and to regulate the hyperfine interaction.
磁场的作用是产生能级的塞曼劈裂和调控超精细相互作用。 - Due to the weak spin-orbital coupling and hyperfine interaction, the carriers in organic materials have a relative long spin relaxation time, so it is a good candidate for spin injection and transport.
有机材料具有较弱的自旋-轨道耦合作用和超精细相互作用,载流子的自旋弛豫时间比较长,因而是理想的实现自旋极化注入候选材料。 - In the two-Dimensional Electron System ( 2DES), electron and nuclear are coupled with each other via the hyperfine interaction.
在二维电子系统中,电子自旋和原子核自旋通过超精细相互作用相互耦合。 - It is well known that the spin-orbit coupling and hyperfine interaction in organic materials are very weak. So the spin relaxation time in organic materials is relative long.
有机材料由于具有较弱的自旋轨道耦合以及超精细相互作用,因此相对于普通无机半导体具有较长的自旋弛豫时间。 - We first give a comprehensive spin electronic Hamiltonian including applied magnetic field, hyperfine interaction and spin-orbit coupling effect.
给出了包括超精细作用和自旋轨道耦合作用在内的自旋电子哈密顿量。 - In this thesis, we build the transition equations among carriers, and take into account the effects of Zeeman effect, hyperfine interaction and exchange interaction on the transitions. We try to give the explanations on magnetic field related phenomenon. 1.
本论文中,我们建立有机层内载流子之间转换的动态方程,考虑体系在外磁场的塞曼作用、氢原子核的超精细作用以及相邻载流子之间的交换相互作用,试图对上述现象给予解释。 - Organic semiconductor material is the most promising candidate to realize spin polarized transport because of its week spin-orbit coupling and hyperfine interaction which lead to longer spin diffusion lengths.
有机半导体由于其弱的自旋-轨道耦合和超精细相互作用,相应的自旋扩散长度比较长,因而是实现自旋极化输运理想的候选材料。 - We can study the fine spin-orbit and hyperfine spin-spin interaction by the single-gluon exchange potential in the QCD-inspired linear confinement potential plus one-gluon exchange potential model.
在OCD衍生的势模型即线性囚禁势加单胶子交换势模型中,精细自旋-轨道相互作用和超精细自旋自旋相互作用可通过单胶子交换势来研究。