除自旋电子学外,DNA对电子自旋具有很强的影响这一发现也表明,自旋相互作用也可能在一些生物过程中发挥作用。
Beyond spintronics, the discovery that DNA has a strong effect on electron spin suggests that spin interactions could also play a role in some biological processes.
这些绝缘体是具有强自旋轨道相互作用的能带绝缘体, 并显示出量子自旋霍尔效应.
These topological insulators are band insulators with large spin-orbit interactions and exhibit the quantum spin-Hall (QSH) effect.
实际上,根据Naaman的解释,在手性分子蒸气过程中起作用的主要是自旋—轨道耦合相互作用,这显然太弱而无法解释当前的实验结果。
As a result the interaction at work in the vapour - spin-orbit coupling - is simply too weak to explain these recent results, according to Naaman.
该体系涉及轨道与电荷、自旋的耦合,电子与声子的相互作用,有序态与无序态的竞争。
The system involves the coupling between charge and spin, the interaction between electron and phonon, and the competition between order and disorder state.
另外我们还考虑了自旋-轨道相互作用和库仑相互作用。
Spin-orbit interaction and coulomb term have also been taken into consideration.
建立以无相互作用的自族为1/2的粒子组成的自旋系统为工质,由两个绝热和两个等温过程组成的量子卡诺制冷循环模型。
The cycle model of a quantum Carnot refrigeration cycle working with many non-interacting spin-1/2 systems and consisting of two isothermal and two adiabatic processes is established.
此外,对系统中的电荷密度和自旋密度分布受非最近邻电子跳跃相互作用和电-声耦合的影响情况亦进行了讨论。
Moreover, the influences of the non-nearest neighbor hopping interactions and electron-phonon coupling on the distribution of the charge density and spin density are also discussed.
利用置换群方法研究了具有邻近相互作用的一维海森堡自旋12开链模型。
A permutation group approach to a one dimensional Heisenberg open spin 12 chain with nearest neighbor interactions is studied.
高能反应中自旋效应是研究强相互作用性质的重要手段。
Spin effect in high energy reactions is powerful tool to study the properties of strong interaction.
在能级精细结构的计算中不仅考虑了自旋-轨道相互作用还计及自旋-其他轨道相互作用。
Their fine structures are calculated by using spin-orbit and spin-other-orbit interaction operators.
观察到自旋相互作用对它的影响。
计算结果表明,自旋-声子耦合相互作用可以使系统建立一个新的稳定基态。
The calculated results show that a new stable ground state can be developed on account of spin phonon coupling.
核自旋之间的各种各向异性相互作用都能用二阶张量表示,这些张量可分解成各向同性、对称以及反对称分量。
The various anisotropic spin interactions which can be represented by the rank two tensors are decomposed into isotropic, symmetric, and antisymmetric constituents.
结果表明,当YBCO处于正常态时两层LCMO膜之间存在着磁性自旋相互作用。
These results imply that the magnetic spin interaction between the two LCMO layers may exist through the normal-conductive YBCO layer.
首先,本文提出了一个耦合粒子对与海森堡自旋链相互作用的模型。
First, a model of a pair of coupled particles interacting with a Heisenberg spin chain is presented.
提出了正方格子上一种更为复杂的两体各向异性相互作用的混合自旋模型。
In this paper, we propose a complicated mixed spin model on square lattices.
而由电子自旋产生的磁场,及由磁场运动,或所谓“绕轨道运转”,对电子的影响,二者之间相互作用的程度取决于它们所凭借的是何物质。
The degree of interaction between the magnetic field caused by an electron's spin and that caused by its motion, or "orbit", depends on the material it is moving through.
利用速度变换给出托玛斯旋进,并应用于玻尔氢原子;利用时间膨胀给出托玛斯角速度;最后计算轨道自旋相互作用能.。
Using transformation of velocities and time dilation, Thomas precession is derived and applied to deduce the spin-orbit interaction energy.
考虑电子-电子相互作用,对具有链间耦合的准一维有机聚合物铁磁体的电子结构和自旋结构进行了研究。
Considering the electron-electron interactions, the configurations of electron and spin in an interchain coupled quasi-one-dimensional organic polymer ferromag(?)et are studies.
本文通过研究V型三能级原子与光场的相互作用,讨论原子的自旋压缩,得到一些有意义的结果。
In this paper, study V-type three-level atom interaction with the light field to discuss the atomic spin-compression, get some meaningful results.
自旋-轨道耦合是电子的自旋磁矩和由轨道运动产生的磁场之间的相互作用。
Spin-orbit coupling is the interaction between the spin magnetic moment of an electron and magnetic field generated by its orbital motion.
不过,质子自旋不同于陀螺自转,它决定着质子和其他粒子之间的磁相互作用,正是这一性质让磁共振成像技术(MRI)得以实现。
But unlike the spin of a top, proton spin governs the magnetic interactions between protons and other particles, a property that permits magnetic-resonance imaging (MRI).
结果表明,三自旋相互作用提高系统的两体纠缠度,但是提高程度会因最近邻自旋间发生铁磁、反铁磁相互作用而有所差异;
Our results show that three spin interactions enhances the entanglement of the system, but the extent is difference for ferromagnetic and anti-ferromagnetic cases.
分别在铁磁和反铁磁模型中研究了三自旋相互作用和温度对两自旋纠缠度的影响。
The effects of the three spin interaction and temperature on the entanglement are discussed in both ferromagnetic and anti-ferromagnetic cases.
计算结果表明,自旋-声子耦合相互作用可以使系统建立一个新的稳定基态。
The calculated results show that ground state spin accords with spin coupling rules.
高温超导体属于强关联电子材料,其中电子、自旋和晶格自由度之间存在较强的相互作用。
High-temperature superconductors are strongly correlated electronic materials, in which spin, charge, lattice are simultaneously active.
自旋-轨道耦合是电子的自旋磁矩和由轨道运动产生的磁场之间的相互作用。
Spin Hall Effect and Spin Current in a Mesoscopic System with Spin-Orbit Coupling;
GMR现象起源于载流子自旋与材料磁性的相互作用。该效应的应用革新了硬盘中读取数据的技术,使硬盘技术在过去十年得到飞速发展;
The applications of GMR have revolutionized the techniques for retrieving data from hard disk drives, which have seen unprecedented advances over the past ten years.
GMR现象起源于载流子自旋与材料磁性的相互作用。该效应的应用革新了硬盘中读取数据的技术,使硬盘技术在过去十年得到飞速发展;
The applications of GMR have revolutionized the techniques for retrieving data from hard disk drives, which have seen unprecedented advances over the past ten years.
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