驻波场 meaning in Chinese
standing wave field
standing-wave field
stationary field
Examples
- Using the fresnel matrix method , the standing wave distribution of the vertical - cavity surface - emitting laser ( vcsel ) was designed and analyzed
摘要应用薄膜光学的菲涅耳系数矩阵方法,对垂直腔面发射激光器的驻波场分布设计做了深入的研究。 - The detail study on the interaction between the electron beam and standing wave of complex cavity gyrotron with gradual transition and gyroklystron has been done in this dissertation , supported by the pre - study important items " the study on 8mm third harmonic gyrotron with a permanent magnet system " and " the study on 8mm high power gyroklystron " . the main works of this dissertation are listed as following : 1 . the study on the rf distribution of the complex cavity with gradual transition is presented , in which the multi - modes coupling are taken into account
本论文就是结合该课题组的“九?五”重点项目“ 8mm三次谐波永磁包装回旋管技术的研究”及“十?五”重点项目“ 8mm高功率回旋速调管技术的研究” ,对以谐振腔为互作用高频系统的回旋脉塞器件中两种典型的器件? ?回旋振荡管及回旋速调管中电子注与驻波场的互作用进行了深入细致的探讨和研究,其中回旋振荡管采用的是渐变复合腔。 - Teleportation of an unknown quantum state includes three processes , preparing entangled epr states , performing joint bell state measurements on the particle that will be teleported and one particle of the epr state , and then performing a unitary transformation on the second particle of the epr state . a scheme for teleporting an arbitrary three - particle state is proposed
从基本的量子逻辑门讨论出发,对单粒子、二粒子摘要激光驻波场中原子的动力学行为和量子态的隐形传送任意量子态的隐形传送过程建立了量子逻辑电路,为量子态隐形传送过程的实现提供理论依据。 - In this thesis , a semi - classical model of the force on an atom is used to describe the motion of a two - level atom interacting with a standing wave laser field . the velocity dependent force and momentum diffusion are derived through optical bloch equations by using the matrix form of the continued fraction technique . by investigating the dynamic properties of atoms in laser field , we can control and manipulate the mechanical motion of an atom
本文利用半经典理论,从二能级原子在激光驻波场中所满足的运动方程出发,推导出密度矩阵元所满足的递推关系,利用矩阵连分数方法求解出密度矩阵元,从而求出依赖于原子运动速度的光压力与动量扩散系数,通过讨论原子在激光场中的动力学行为,为原子在激光场中被囚禁、形成原子列阵以及可控制的量子态,从而为量子信息处理提供理论基础。 - If the velocity of atoms is near to zero , the light for ces will tend to confine the atoms near to nodes and antinodes . the stability depends on the magnitude of the negative slope of the light force , the depth of the potential well and the momentum diffusion coefficient . it is important to select the parameters , e . g
如果通过激光冷却能使原子速度降至很小甚至为零,光压力的作用将使原子被较稳定地囚禁于激光驻波场的节点和反节点处,其稳定程度取决于该处光压力曲线负斜率的大小、对应势能的势阱深度以及动量扩散系数的大小,因此,如何在实验中合理选择激光强度、失谐量等显得尤为关键。