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qcl:simulation_output [2019/03/07 13:43] thomas.grange [Simulation output for each voltage] |
qcl:simulation_output [2019/04/18 09:14] admin [Simulation output] |
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For each basis set, the folder contains: | For each basis set, the folder contains: | ||
- | + | * the probability density $\vert \Psi_i(z) \vert^2$ for the each state $\Psi_i$. Each level is shifted accordingly to its energy | |
- | * the probability density for the wavefunctions (see above in the initial electronic modes). | + | * the wavefunction $\Psi_i(z)$ in the file ''Wavefunctions.dat'' |
- | * the population (i.e. the probability of occupation) in each level $\Psi_i$. | + | * the population (i.e. the probability of occupation) in each level $\Psi_i$ |
* ''DensityMatrix_Real.mat'' displays the real part of the density matrix. The labelling is made accordingly to the one of the wavefunctions $\Psi_i(z)$, so that the matrix element (i,j) corresponds to the real part of $\langle \Psi_i \vert \rho \vert \Psi_j \rangle$, where $\rho$ is the density matrix. Note that the diagonal element (i,i) is equal to the population of the level $\Psi_i$. | * ''DensityMatrix_Real.mat'' displays the real part of the density matrix. The labelling is made accordingly to the one of the wavefunctions $\Psi_i(z)$, so that the matrix element (i,j) corresponds to the real part of $\langle \Psi_i \vert \rho \vert \Psi_j \rangle$, where $\rho$ is the density matrix. Note that the diagonal element (i,i) is equal to the population of the level $\Psi_i$. | ||
* ''DensityMatrix_Real.mat'' displays the imaginary part of the density matrix. | * ''DensityMatrix_Real.mat'' displays the imaginary part of the density matrix. |