*** FILE AUTOMATICALLY CREATED: DO NOT EDIT, CHANGES WILL BE LOST *** ------------------------------------------------------------------------ INPUT FILE DESCRIPTION Program: molecularpdos.x / PWscf / Quantum Espresso (version: 6.1) ------------------------------------------------------------------------ Purpose of molecularpdos.x: Takes the projections onto orthogonalized atomic wavefunctions as computed by projwfc.x (see outdir/prefix.save/atomic_proj.xml) to build an LCAO-like representation of the eigenvalues of a system "full" and "part" of it (each should provide its own atomic_proj.xml file). Then the eigenvectors of the full system are projected onto the ones of the part. For example, to decompose the PDOS of an adsorbed molecule into its molecular orbital, as determined by a gas-phase calculation. Reference: An explanation of the keywords and the implementation is provided in Scientific Reports | 6:24603 (2016) DOI: 10.1038/srep24603 (Supp. Info). Structure of the input data: ============================ &INPUTMOPDOS ... / ======================================================================== NAMELIST: &INPUTMOPDOS +-------------------------------------------------------------------- Variables: xmlfile_full, xmlfile_part Type: CHARACTER Description: xml files with atomic projections (produced by projwfc.x) for the full system and its molecular part +-------------------------------------------------------------------- +-------------------------------------------------------------------- Variable: i_atmwfc_beg_full Type: INTEGER Default: 1 Description: first atomic wavefunction of the full system considered for the projection +-------------------------------------------------------------------- +-------------------------------------------------------------------- Variable: i_atmwfc_end_full Type: INTEGER Default: 0, i.e., all atomic wavefunctions Description: last atomic wavefunction of the full system considered for the projection +-------------------------------------------------------------------- +-------------------------------------------------------------------- Variable: i_atmwfc_beg_part Type: INTEGER Default: 1 Description: first atomic wavefunction of the molecular part considered for the projection +-------------------------------------------------------------------- +-------------------------------------------------------------------- Variable: i_atmwfc_end_part Type: INTEGER Default: 0, i.e., all atomic wavefunctions Description: first atomic wavefunction of the molecular part considered for the projection +-------------------------------------------------------------------- +-------------------------------------------------------------------- Variable: i_bnd_beg_full Type: INTEGER Default: 1 Description: first eigenstate of the full system to be taken into account for the projection +-------------------------------------------------------------------- +-------------------------------------------------------------------- Variable: i_bnd_end_full Type: INTEGER Default: 0, i.e., all eigenstates Description: last eigenstate of the full system to be taken into account for the projection +-------------------------------------------------------------------- +-------------------------------------------------------------------- Variable: i_bnd_beg_part Type: INTEGER Default: 1 Description: first eigenstate of the molecular part to be taken into account for the projection +-------------------------------------------------------------------- +-------------------------------------------------------------------- Variable: i_bnd_end_part Type: INTEGER Default: 0, i.e., all eigenstates Description: last eigenstate of the molecular part to be taken into account for the projection +-------------------------------------------------------------------- +-------------------------------------------------------------------- Variable: fileout Type: CHARACTER Description: prefix for output files containing molecular PDOS(E) Default: 'molecularpdos' +-------------------------------------------------------------------- +-------------------------------------------------------------------- Variable: ngauss Type: INTEGER Default: 0 Description: Type of gaussian broadening: 0 ... Simple Gaussian (default) 1 ... Methfessel-Paxton of order 1 -1 ... Marzari-Vanderbilt "cold smearing" -99 ... Fermi-Dirac function +-------------------------------------------------------------------- +-------------------------------------------------------------------- Variable: degauss Type: REAL Default: 0.0 Description: gaussian broadening, Ry (not eV!) +-------------------------------------------------------------------- +-------------------------------------------------------------------- Variables: Emin, Emax Type: REAL Default: (band extrema) Description: min & max energy (eV) for DOS plot +-------------------------------------------------------------------- +-------------------------------------------------------------------- Variable: DeltaE Type: REAL Default: 0.01 Description: energy grid step (eV) +-------------------------------------------------------------------- +-------------------------------------------------------------------- Variable: kresolveddos Type: LOGICAL Default: .false. Description: if .true. the k-resolved DOS is computed: not summed over all k-points but written as a function of the k-point index. In this case all k-point weights are set to unity +-------------------------------------------------------------------- ===END OF NAMELIST====================================================== :::: Notes ::: Format of output files Projections are written to standard output. The molecular projected DOS is written to the file "fileout".mopdos. * The format for the spin-unpolarized case is: index_of_molecular_orbital E MOPDOS(E) ... * The format for the collinear, spin-polarized case is: index_of_molecular_orbital E MOPDOSup(E) MOPDOSdw(E) ... The file "fileout".mopdos_tot contains the sum over the molecular orbitals. * The format for the spin-unpolarized case is: E MOPDOS(E) ... * The format for the collinear, spin-polarized case is: E MOPDOSup(E) MOPDOSdw(E) ... All DOS(E) are in states/eV plotted vs E in eV ::: Important notices * The atomic wavefunctions identified by the ranges i_atmwfc_beg_full:i_atmwfc_end_full (full system) and i_atmwfc_beg_part:i_atmwfc_end_part (molecular part) should correspond to the same atomic states. See the header of the output of projwfc.x for more information. * If using k-points, the same unit cell and the same k-points should be used in computing the molecular part, unless you really know what you are doing. * The tetrahedron method is presently not implemented. * Gaussian broadening is used in all cases (with ngauss and degauss values from input). This file has been created by helpdoc utility on Fri Mar 03 06:56:21 UTC 2017