哈密顿

hā mì dùn
  • Hamilton
哈密顿哈密顿
哈密顿[hā mì dùn]
  1. 哈密顿回路问题的DNA表面计算模型

    An Surface-based DNA Algorithm for the Hamilton Circuit Problem

  2. 推广的N个时间的哈密顿原理和正则变换群

    Generalized Multi-Time Hamilton Principle and Canonical Transformation Group

  3. 经典哈密顿函数H向量子力学算符■过渡的研究

    The Research of Transition from Classical Hamiltonian H to Quantum Mechanics Operator ■

  4. 应用最小二乘法拟合技术对g因子及自旋哈密顿参数进行了精确拟合。

    The g factors and ESR parameters were simulated with the Least-Square Fitting Method .

  5. ZP群中N维广义正方体上的哈密顿回路

    Hamiltonian circuit on n-dimensional hypercube in z_p

  6. 不含K3图的线图的哈密顿性

    On Hamiltonian Line Graph in K_3-Free Graph

  7. 拟无爪图和K(1,2)-扩展图的哈密顿问题

    Hamilton Problem of Strongly Almost Claw-free Graphs and K_ ( 1,2 ) - extended Graphs

  8. 图有哈密顿(g,f)-因子的度条件

    A degree condition for graphs to have Hamiltonian ( g , f ) - factors

  9. Al2O3:V~(2+)晶体自旋哈密顿参量的理论解释

    Theoretical Interpretation of Spin-Hamiltonian Parameters for Al_2O_3 : V ~ ( 2 + ) Crystal

  10. 哈密顿不依赖时间的系统的AA几何位相

    AA Geometrical Phase of A System with the Time Independent Hamiltonian

  11. 本文用玻色算符的三维型哈密顿量描述单模激光场与N个两能级原子的相互作用。

    The interaction of a single mode laser field with N two-level atoms is described bya Hamiltonian trilinear in the boson operators .

  12. Al2O3:Ni~(2+)晶体的自旋哈密顿参量和光谱精细结构

    Spin Hamiltonian parameters and optical fine structure of Ni 2 + ions in Al 2O 3 crystals

  13. DES中关于扩散图的哈密顿环问题

    The Problem of Hamiltonian Cycles on Spreading graph in the DES

  14. 各向异性弹性力学问题Hamilton正则方程的一般形式相空间和哈密顿正则方程在统计力学中的应用

    The application of phase space and Hamilton Canonical Equation in statistical mechanics

  15. 2+1维的TB族的可积耦合和它的哈密顿结构

    Integrable Couplings of the ( 2 + 1 ) - dimensional TB Hierarchy and Its Hamiltonian Structure

  16. 由上原理出发,可分别得出最小作用量原理,哈密顿原理、费马原理、H定理和最小熵产生原理。

    From the generalized principle , we can derive Least-Action Principle , Hamiltion Principle , H Theorem , Least Entropy-produced Principle and so on .

  17. 最后讨论了受控时滞哈密顿系统的L2干扰抑制控制问题。

    Finally , the L2-disturbance attenuation control of port-controlled time-delay Hamiltonian systems are discussed .

  18. 平面曲管Stokes流问题中的哈密顿体系方法

    A Method of Hamiltonian System for Stokes Flow in the Planar Curved Tube

  19. 新的Lax可积发展方程族及其无限维双-哈密顿结构

    New lax integrable hierarchy of evolution equations and its infinite-dimensional bi-hamiltonian structure

  20. 高阶Schrodinger方程的哈密顿型蛙跳格式

    Leap-frog schemes of Hamiltonian system for Schrodinger equations of high order

  21. 哈密顿系统的格子Boltzmann模型

    A Lattice Boltzmann Model for the Hamilton System

  22. CaF2晶体中Mn~(2+)离子自旋哈密顿量参数的计算

    Calculation of spin Hamiltonian parameter of mn ~ 2_ + ion in caf_2 crystal

  23. 近哈密顿系统的Hopf分岔

    Hopf bifurcation of a perturbed Hamiltonian system

  24. 用改进的格点哈密顿量计算2+1维U(1)规范场真空波函数

    Calculation of the Vacuum Wave Function in 2 + 1 Dimensional U ( 1 ) Gauge Theory by Using the Improved Lattice Hamiltonian

  25. 为求出图的全部哈密顿回路,本文提出了H集合、连接积、H矩阵和通路矩阵等概念。

    In order to find out all Hamiltonian tours of a graph , this paper puts forward the concepts about H sets , H matrices joining product and path matrix , etc.

  26. 而且带帽的H,好,这个帽告诉我们它肯定是一个算符,这个被称为哈密顿算符。

    And h with the carrot or the hat here , well , that carrot or hat tell us it must be an operator , and this is called the Hamiltonian operator .

  27. 自20世纪60年代以来,物理科学领域中的非线性科学,尤其是周期受击的哈密顿系统,展现出非常复杂的动力学现象,并且随着打击强度k的增加,系统出现混沌。

    Since 1960s , nonlinear science has achieved encouraging results , especially the periodically kicked Hamilton system exhibits very complicated dynamics phenomenon . As κ increases , the system emergence chaos .

  28. 对称群上的一类哈密顿Cayley图

    A Class of Hamiltonian Cayley Graphs on the Symmetric Group

  29. 通过将Nose所定义的扩展系统哈密顿量推广到刚性多原子分子系统中,严格地推导了刚性多原子分子在正则系综下的运动方程。

    By specializing the Hamiltonian of Nose 's extended system in rigid multibody systems , we develop rigorous motion equations for rigid multibody molecular dynamics in canonical ensemble .

  30. 分子体系的约化哈密顿轨道(RHO)法通用计算机程序MQJRHO

    A General Computer Program of Molecular System by Reduced Hamiltonian Orbital ( RHO ) Method