With initial and boundary conditions. In a square, zero potential.
Solve for \(f(x,y,t)\) \[ I f_t = - \frac {\hbar ^2}{2 m} \nabla ^2 f(x,y) \] With boundary conditions \begin {align*} f(0,y,t) &= 0\\ f(1,y,t) &=0 \\ f(x,1,t) &=0 \\ f(x,0,t) &=0 \end {align*}
And initial conditions \(f(x,y,0)=\sqrt {2} \left ( \sin (2\pi x) \sin (\pi y) + \sin (\pi x) \sin (2 \pi y) \right )\)
Mathematica ✓
ClearAll["Global`*"]; pde = I*D[f[x, y, t], {t}] == -((hBar^2*Laplacian[f[x, y, t], {x, y}])/(2*m)); initSum = f[x, y, 0] == Sqrt[2]*(Sin[2*Pi*x]*Sin[Pi*y] + Sin[Pi*x]*Sin[2*Pi*y]); bcs = {f[0, y, t] == 0, f[1, y, t] == 0, f[x, 1, t] == 0, f[x, 0, t] == 0}; sol = AbsoluteTiming[TimeConstrained[DSolve[{pde, bcs, initSum}, f[x, y, t], {x, y, t}], 60*10]];
\[\left \{\left \{f(x,y,t)\to 2 \sqrt {2} \sin (\pi x) \sin (\pi y) e^{-\frac {5 i \pi ^2 \text {hBar}^2 t}{2 m}} (\cos (\pi x)+\cos (\pi y))\right \}\right \}\]
Maple ✓
restart; interface(showassumed=0); pde := I* diff(f(x,y,t),t) = -hBar^2/(2*m) * (diff(f(x,y,t),x$2) + diff(f(x,y,t),y$2)); ic := f(x, y, 0) = sqrt(2)*(sin(2*Pi*x)*sin(Pi*y) + sin(Pi*x)*sin(2*Pi*y)); bc := f(0, y, t) = 0, f(1, y, t) = 0, f(x, 1, t) = 0, f(x, 0, t) = 0; cpu_time := timelimit(60*10,CodeTools[Usage](assign('sol',pdsolve([pde,ic,bc],f(x,y,t))),output='realtime'));
\[f \left (x , y , t\right ) = \sqrt {2}\, \left (\sin \left (\pi x \right ) \sin \left (2 \pi y \right )+\sin \left (\pi y \right ) \sin \left (2 \pi x \right )\right ) {\mathrm e}^{-\frac {5 i \pi ^{2} \mathit {hBar}^{2} t}{2 m}}\]
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