自旋角动量

  • 网络spin angular momentum
自旋角动量自旋角动量
  1. 这样的装备将使我们充分利用轨道角动量而不是自旋角动量相联系的增加的信息容量。

    Such a device will allow us to take advantage of the increase in information capacity associated with orbital rather than spin angular momentum .

  2. 量子数:表示自旋角动量的量子数。

    A quantum number expressing spin angular momentum .

  3. 行星自旋角动量和背景角动量之间的相关性

    Correlation between spin angular momentums and background angular momentums of planets

  4. 电子轨道自旋角动量耦合的克莱布希-高登系数的计算

    Computation of the Clebsch-Gordon Coefficient of Electron Orbit Spin Angle Momentum Coupling

  5. 一种确定电子轨道自旋角动量耦合基矢的简便方法

    A simple method to determine the coupling vectors of orbit-spin angular momentums

  6. 具有整数自旋角动量的亚原子粒子,遵循玻色-爱因斯坦统计法。

    Subatomic particle with integral spin that is governed by Bose-Einstein statistics .

  7. 核素的自旋角动量量子数和群子参数间关系

    The relationship between quantum number of angular momentum and sub - cluster parameter on nuclide

  8. 角动量有两个分量:自旋角动量和轨道角动量。

    Angular momentum has two key components : spin angular momentum and orbital angular momentum .

  9. 因为电子是携带电荷的天然最小单位,所以电子也携带不可分的自旋角动量单位。

    As the electron carries nature 's smallest unit of electric charge , it also carries the indivisible unit of spin .

  10. 大量的实验也表明实测的核素的自旋角动量与理论预测值之间有相当大的差距。

    But a great number of experiments showed that there was a great differences between the real angular momentum and the anticipated value in theory .

  11. 光的吸收可以同时导致光束的自旋角动量或轨道角动量转移给微米粒子,就像光学镊子一样引起粒子的转动,从而形成光学扳手。

    Absorption of the light allows both the spin and orbital angular momentum of a light beam to be transferred to microscopic particles held within optical tweezers , forming an optical spanner .

  12. 其次,从理论上分析了偏振光束与双折射晶体粒子的相互作用机制,并分别讨论了由于光束自旋角动量和轨道角动量向双折射晶体粒子的传递所导致的光致旋转效应的原理。

    Secondly , the principle of optical rotation due to the transfer of spin angular momentum and orbital angular momentum from light to birefringent particles is discussed by analyzing the interaction between the beam of light and birefringent crystal particles .

  13. V1代表数量级为1/M的简谐振子位阱,另外还引入一个张量力来解释自旋和轨道角动量相同态的能级分裂。

    V1 represents a small potential of the order of 1 / M of a simple harmonic oscillator . A tensor force is also introduced to account for the splitting of energy levels of the states with the same spin and orbital angular momentum .

  14. 电子自旋不是轨道角动量的相对论效应

    Electronic spin is not the relativistic effect of the orbital angular momentum

  15. 评述了光抽运和自旋交换碰撞中角动量转移和损失的物理。

    This article reviews the physics of angular momentum transfer and loss in optical pumping and spin-exchanging collisions .