PROOUT: Difference between revisions
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The {{TAG|PROOUT}} file is only written out if the {{TAG|LORBIT}} flag is set with an appropriate {{TAG|RWIGS}} flag in the {{TAG|INCAR}} file. | The {{TAG|PROOUT}} file is only written out if the {{TAG|LORBIT}} flag is set with an appropriate {{TAG|RWIGS}} flag in the {{TAG|INCAR}} file. | ||
The {{TAG|PROOUT}} file is similar in information to the {{TAG|PROCAR}} file but the following differences exist: | |||
*The {{TAG|PROOUT}} file writes the real and imaginary parts of <math>P_{Nlmn\mathbf{k}}</math>, whereas the {{TAG|PROCAR}} file contains only the real part. | |||
*The {{TAG|PROCAR}} file contains the information on the square (<math>P_{Nlmn\mathbf{k} (P_{Nlmn\mathbf{k})*</math>), whereas the {{TAG|PROOUT}} describes only <math>P_{Nlmn\mathbf{k}</math>. | |||
*The arrangement of the output is very different in both files. | |||
== Format == | == Format == |
Revision as of 14:49, 18 April 2018
This file contains the projection of the wavefunctions onto spherical harmonics that are non zero within spheres of a radius RWIGS centered at each ion ().
Available from VASP version 3.2 and upwards.
The PROOUT file is only written out if the LORBIT flag is set with an appropriate RWIGS flag in the INCAR file.
The PROOUT file is similar in information to the PROCAR file but the following differences exist:
- The PROOUT file writes the real and imaginary parts of , whereas the PROCAR file contains only the real part.
- The PROCAR file contains the information on the square (Failed to parse (Conversion error. Server ("cli") reported: "[INVALID]"): {\displaystyle P_{Nlmn\mathbf{k} (P_{Nlmn\mathbf{k})*} ), whereas the PROOUT describes only Failed to parse (Conversion error. Server ("cli") reported: "[INVALID]"): {\displaystyle P_{Nlmn\mathbf{k}} .
- The arrangement of the output is very different in both files.
Format
- line 1: PROOUT
- line 2: Number of kpoints, bands and ions
- line 3: Twice the number of types followed by the number of ions for each type
- line 4: The Fermi weights for each kpoint (inner loop) and band (outer loop)
- line 5 ...: Real and imaginary part of the projection for every lm-quantum number (inner loop), band, ion per type, kpoint and ion-type (outer loop)
- below : Augmentation part
- last line: The corresponding augmentation part of the projections for every lm-quantum number (inner loop), ion per type, ion-type, band and kpoint (outer loop)
This information makes it possible to construct e.g. partial DOS projected onto bonding and anti-bonding molecular orbitals or the so-called coop ( crystal overlap population function}).