harmonic oscillator 中文意思是什麼

harmonic oscillator 解釋
【電學】諧(波)振(蕩)器。

  • harmonic : n 1 【音樂】泛音;和聲。2 〈 pl 〉【數學】諧函數,調和函數。3 【物理學】諧波,諧音。adj 1 和睦的...
  • oscillator : n. 1. 搖擺者。2. 【電學】振蕩器,振動器,振動子,振動部。
  1. For a harmonic oscillator the energy levels are evenly spaced.

    對諧振子來說,能級是等間隔的。
  2. Thus far we have negated frictional effects in the harmonic oscillator.

    到現在為止,我們一直沒有考慮諧和振蕩器中的摩擦效應。
  3. This is a most useful form of the harmonic oscillator hamiltonian and it will be encountered in several subsequent developments.

    這是諧振子哈密頓算符最有用的形式,在下文中還會碰到這個表達式。
  4. No atom behaves precisely like a classical harmonic oscillator.

    任何一個原子的性能都不會同經典諧振子完全相同。
  5. We can work out positions of a harmonic oscillator by numerical methods.

    我們可以按數值方法計算簡諧振子的位置。
  6. The harmonic oscillator is an exceptionally important example of periodic motion.

    諧振子在周期運動中是特別重要的。
  7. The case of a harmonic oscillator driven by sinusoidally varying force is an extremely important one in many branches.

    在許多領域中受正弦變化力策動的諧振子是一種十分重要的運動。
  8. In this section we will increase our quantum-mechanical repertoire by solving the schroedinger equation for the one-dimensional harmonic oscillator.

    本節我們將用求解一維諧振子的薛定諤方程以提高我們的量子力學技能。
  9. Two wave interpretation of the 3 - dimensional harmonic oscillator

    三維諧振子的雙波描述
  10. Analytical solution of smoluchowski equation in harmonic oscillator form

    方程的諧振子解析解
  11. Recurrence formula for radial matrix element of two - dimen - siowal isotropic harmonic oscillator

    三維各向同性諧振子徑向矩陣元遞推公式
  12. The excellence and basic thinking of green function method is shown because forced harmonic oscillator is discussed, further more, that the green function method is used widely is clarified

    最後,以普通物理中的受迫諧振子問題為例,突出體現了green函數方法的優點,並進一步說明了green函數方法應用的普遍性。
  13. Solve energy eigenvalue of the double harmonic oscillator by momentum coupling

    求解動量耦合下兩諧振子體系的能量本徵值問題
  14. Quantum operator methods associated with canonical transformation for 1d harmonic oscillator problem

    哈密頓算符的對角化與能量本徵值問題的代數解法
  15. At the same time in terms of su ( 1, 1 ) algebra, the eigenequations of two and three - dimensional harmonic oscillator and hydrogen atom with inverse square potential are conversed into the same equations in form. then the relationships between energy levels and wave functions of them are found

    同時本文利用su ( 1 , 1 )代數將二維、三維情況下的諧振子同加了反平方勢的氫原子分別表示成具有相同形式的兩算符下的本徵值方程,從而得出他們的能量對應關系。
  16. By use of the relationships between the hermite polynomial and the laguerre polynomial, the eigenequations of one - dimensional harmonic oscillator and hydrogen atom are conversed into the same equations in form. therefore the relationships between energy levels and wave functions of one - dimensional harmonic oscillator and hydrogen atom are found. through the coordinates transform, the relationships between energy levels and wave functions of two - dimensional harmonic oscillator and hydrogen atom are found

    首先綜述了諧振子與氫原子的基本理論的研究現狀,並在此基礎上對諧振子與氫原子的關系展開了研究,通過厄密特方程與拉蓋爾方程的相互轉化,將一維諧振子與一維氫原子的本徵值方程轉化為相同形式的方程,從而比較得出它們能量及波函數間的關系,並通過坐標變換將直角坐標系下二維氫原子的本徵值方程轉化成與曲線坐標系下二維諧振子的本徵值方程相同的形式,從而得出二維氫原子與二維諧振子的能量及波函數的關系。
  17. And we obtain their annihilation operator and creation operator by improving canonical transformation to harmonic oscillator ' s annihilation operator and creation operator. more, we generalize supersymmetric harmonic oscillator space. in this space, we construct two kinds independent phase operators by improving supersymmetric annihilation operator and supersymmetric creation operator, and then obtain their eigenstates

    我們進一步將它推廣到用超對稱諧振子的產生算符和湮滅算符來構造適用於超對稱諧振子的雙摸相位空間里的二類獨立的相位算符並相應地求出了其歸一化的本徵態。
  18. Coordinate transformation, matrix, vectors, newton ' s law, conservation theorems, simple harmonic oscillator, non - linear oscillations, gravitation, euler ' s equation when auxiliany condition are imposed, the delta notation, lagrangian and hamilitonian dynamics, central - force motion, dynamics of a system o f particles, motion of noninertial reference frame, dynamics of rigid body, coupled oscillations, orthogonality of the eigenvectors, continuous system

    座標變換、矩陣、向量、牛頓定律、守恆定律、簡諧振動、非線性振動、引力、尤拉式方程式及附加條件、符號、拉格蘭及漢米爾頓力學、中心運動、多粒子系統動力學、非慣性參考座標運動、剛體動力學、耦會振動、本微向量正交性、連續系統。
  19. Recurrence formula for radial matrix elements of three - dimensional isotropic harmonic oscillator

    三維各向同性諧振子徑向矩陣元的遞推關系
  20. The deductive method for the operator theory of the uncertainty relation of one - dimensional harmonic oscillator

    一維諧振子不確定關系的算符理論推導法
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