This site contains an applet to plot wave functions and energy levels for arbitrary potentials, to be input by the user. Several standard potentials are included for selection, including square wells, multi-wells, and a harmonic potential. Users can change the energy of states to observe physical and non-physical states, and explore eigenfunction solutions.
W. Christian, Solutions to the One-dimensional Time-independent Schrodinger Equation (2002), <http://www.schulphysik.de/java/physlet/applets/quant2.html>.
Christian, W. (2002). Solutions to the One-dimensional Time-independent Schrodinger Equation. Retrieved October 6, 2024, from http://www.schulphysik.de/java/physlet/applets/quant2.html
Christian, Wolfgang. Solutions to the One-dimensional Time-independent Schrodinger Equation. 2002. http://www.schulphysik.de/java/physlet/applets/quant2.html (accessed 6 October 2024).
@misc{
Author = "Wolfgang Christian",
Title = {Solutions to the One-dimensional Time-independent Schrodinger Equation},
Volume = {2024},
Number = {6 October 2024},
Year = {2002}
}
%A Wolfgang Christian %T Solutions to the One-dimensional Time-independent Schrodinger Equation %D 2002 %U http://www.schulphysik.de/java/physlet/applets/quant2.html %O application/java
%0 Electronic Source %A Christian, Wolfgang %D 2002 %T Solutions to the One-dimensional Time-independent Schrodinger Equation %V 2024 %N 6 October 2024 %9 application/java %U http://www.schulphysik.de/java/physlet/applets/quant2.html
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