DescripciónStationaryStatesAnimation.gif	English: Three wavefunction solutions to the Time-Dependent Schrödinger equation for a harmonic oscillator. Left: The real part (blue) and imaginary part (red) of the wavefunction. Right: The probability of finding the particle at a certain position. The top two rows are the lowest two energy eigenstates, and the bottom is the superposition state ${\displaystyle \psi _{N}=(\psi _{0}+\psi _{1})/{\sqrt {2}}}$, which is not an energy eigenstate. The right column illustrates why energy eigenstates are also called "stationary states". Thus in every quantum stae,there are certain preferred positions of maximum probability
Fecha	20 de marzo de 2011
Fuente	Trabajo propio
Autor	Sbyrnes321

(* Source code written in Mathematica 6.0 by Steve Byrnes, Feb. 2011. This source code is public domain. *)
(* Shows classical and quantum trajectory animations for a harmonic potential. Assume m=w=hbar=1. *)
ClearAll["Global`*"]
(*** Wavefunctions of the energy eigenstates ***)
psi[n_, x_] := (2^n*n!)^(-1/2)*Pi^(-1/4)*Exp[-x^2/2]*HermiteH[n, x];
energy[n_] := n + 1/2;
psit[n_, x_, t_] := psi[n, x] Exp[-I*energy[n]*t];
(*** A non-stationary state ***)
SeedRandom[1];
psinonstationary[x_, t_] := (psit[0, x, t]+psit[1, x, t])/Sqrt[2];

(*** Put all the plots together ***)
SetOptions[Plot, {PlotRange -> {-1, 1}, Ticks -> None, PlotStyle -> {Directive[Thick, Blue], Directive[Thick, Pink]}}];
MakeFrame[t_] := GraphicsGrid[
   {{Plot[{Re[psit[0, x, t]], Im[psit[0, x, t]]}, {x, -5, 5}, PlotLabel -> Subscript[\[Psi],0]], 
     Plot[Abs[psit[0, x, t]]^2, {x, -5, 5}, PlotStyle -> Directive[Thick, Black],
		PlotLabel -> TraditionalForm[Abs[Subscript[\[Psi],0]]^2]]},
   {Plot[{Re[psit[1, x, t]], Im[psit[1, x, t]]}, {x, -5, 5}, PlotLabel -> Subscript[\[Psi],1]], 
     Plot[Abs[psit[1, x, t]]^2, {x, -5, 5}, PlotStyle -> Directive[Thick, Black],
		PlotLabel -> TraditionalForm[Abs[Subscript[\[Psi],1]]^2]]},
   {Plot[{Re[psinonstationary[x, t]], Im[psinonstationary[x, t]]}, {x, -5, 5}, PlotLabel -> Subscript[\[Psi],N]], 
     Plot[Abs[psinonstationary[x, t]]^2, {x, -5, 5}, PlotStyle -> Directive[Thick, Black],
		PlotLabel -> TraditionalForm[Abs[Subscript[\[Psi],N]]^2]]}
   }, Frame -> All, ImageSize -> 300];
output = Table[MakeFrame[t], {t, 0, 4 Pi*40/41, 4 Pi/41}];
SetDirectory["C:\\Users\\Steve\\Desktop"]
Export["test.gif", output]

Yo, el titular de los derechos de autor de esta obra, la publico en los términos de la siguiente licencia:

Este archivo está disponible bajo la licencia Dedicación de Dominio Público CC0 1.0 Dedicación a Dominio Público Universal de Creative Commons.

La persona que ha asociado una obra a este documento lo dedica al dominio público mediante la cesión mundial de sus derechos bajo la ley de derechos de autor y todos los derechos legales adyacentes propios de dicha, en el ámbito permitido por ley. Puedes copiar, modificar, distribuir y reproducir el trabajo, incluso con objetivos comerciales, sin pedir aprobación del autor. http://creativecommons.org/publicdomain/zero/1.0/deed.enCC0Creative Commons Zero, Public Domain Dedicationfalsefalse