(300 × 280 piksel, fayl həcmi: 223 KB, MIME növü: image/gif, ilmələnib, 41 çərçivə)

Xülasə

İzah
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 , 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
Tarix
Mənbə Öz işi
Müəllif 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]

Lisenziya

Mən, bu işin müəllif hüquqları sahibi, onu aşağıdakı lisenziyaya əsasən dərc edirəm:
Creative Commons CC-Zero This file is made available under the Creative Commons .
The person who associated a work with this deed has dedicated the work to the public domain by waiving all of their rights to the work worldwide under copyright law, including all related and neighboring rights, to the extent allowed by law. You can copy, modify, distribute and perform the work, even for commercial purposes, all without asking permission.

Captions

Add a one-line explanation of what this file represents
ECTODERM THE BUTTERFLY EFFECT OF AMUN

Items portrayed in this file

təsvir edir

20 mart 2011

Faylın tarixçəsi

Faylın əvvəlki versiyasını görmək üçün gün/tarix bölməsindəki tarixlərə klikləyin.

Tarix/Vaxt Miniatür Ölçülər İstifadəçi Şərh
hal-hazırkı 300 × 280 (223 KB) {{Information |Description ={{en|1=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 partic

Aşağıdakı səhifə bu faylı istifadə edir:

Faylın qlobal istifadəsi

Bu fayl aşağıdakı vikilərdə istifadə olunur:

Bu faylın qlobal istifadəsinə baxın.


Informasiya Melumat Axtar

Anarim.Az

Sayt Rehberliyi ile Elaqe

Saytdan Istifade Qaydalari

Anarim.Az 2004-2023