厄密 meaning in Chinese
hermite-gauss beam
hermite-gauss modes
Examples
- In other words, the hermiticity of a matrix is invariant under unitary transformations .
换言之,矩阵的厄密性在幺正变换下保持不变。 - The procedure described above applies to the eigenvalues and eigenfunctions of any hermitian operator .
用上述运算方法也能求出任一厄密算符的本征值和本征函数。 - Oint of a matrix
矩阵的厄密共轭 - Chapter 4 : applying the definitions of the generalized second and fourth order moments , the beam propagation m2 - factor and the kurtosis parameter of coherent and incoherent combinations of two - dimensional off - axis elegant hermite - gaussian ( ehg ) beams are derived analytically and numerically . and the power in bucket ( pib ) is also presented numerically . our results illustrate the propagation properties of the beam through a first - order optical abcd system
第四章:讨论了相干和非相干离轴完美厄密高斯( eleganthermitegaussian ( ehg ) )光束组的传输特性,通过解析推导和数值模拟,研究了相干和非相干的离轴ehg光束组的传输,得出并比较了相干和非相干的离轴ehg光束组的光束质量因子、陡峭度和筒内的功率( powerinbucket ) 。 - 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
首先综述了谐振子与氢原子的基本理论的研究现状,并在此基础上对谐振子与氢原子的关系展开了研究,通过厄密特方程与拉盖尔方程的相互转化,将一维谐振子与一维氢原子的本征值方程转化为相同形式的方程,从而比较得出它们能量及波函数间的关系,并通过坐标变换将直角坐标系下二维氢原子的本征值方程转化成与曲线坐标系下二维谐振子的本征值方程相同的形式,从而得出二维氢原子与二维谐振子的能量及波函数的关系。