*** FILE AUTOMATICALLY CREATED: DO NOT EDIT, CHANGES WILL BE LOST ***

------------------------------------------------------------------------
INPUT FILE DESCRIPTION

Program: dynmat.x / PWscf / Quantum Espresso (version: 6.6)
------------------------------------------------------------------------


Purpose of dynmat.x:

- reads a dynamical matrix file produced by the phonon code

- adds the non-analytical part (if Z* and epsilon are read from
  file), applies the chosen Acoustic Sum Rule (if q=0)

- diagonalise the dynamical matrix

- calculates IR and Raman cross sections (if Z* and Raman
  tensors are read from file, respectively)

- writes the results to files, both for inspection and for
  plotting


Structure of the input data:
========================================================================

&INPUT
   ...specs of namelist variables...
/



========================================================================
NAMELIST: &INPUT

   +--------------------------------------------------------------------
   Variable:       fildyn
   
   Type:           CHARACTER
   Description:    input file containing the dynamical matrix
   Default:        'matdyn'
   +--------------------------------------------------------------------
   
   +--------------------------------------------------------------------
   Variable:       q(i), i=1,3
   
   Type:           REAL
   Description:    calculate LO modes (add non-analytic terms) along the direction q (Cartesian axis)
   Default:        q = (0,0,0)
   +--------------------------------------------------------------------
   
   +--------------------------------------------------------------------
   Variable:       amass(i), i=1,ntyp
   
   Type:           REAL
   Description:    mass for each atom type
   Default:        amass is read from file "fildyn"
   +--------------------------------------------------------------------
   
   +--------------------------------------------------------------------
   Variable:       asr
   
   Type:           CHARACTER
   Default:        'no'
   Description:   
                   Indicates the type of Acoustic Sum Rule imposed.
                   
                   Allowed values:
    
                   'no' :
                        no Acoustic Sum Rules imposed (default)
    
                   'simple' :
                        previous implementation of the asr used
                        (3 translational asr imposed by correction of
                         the diagonal elements of the dynamical matrix)
    
                   'crystal' :
                        3 translational asr imposed by optimized
                        correction of the dyn. matrix (projection)
    
                   'one-dim' :
                        3 translational asr + 1 rotational asr imposed
                        by optimized correction of the dyn. mat. (the
                        rotation axis is the direction of periodicity; it
                        will work only if this axis considered is one of
                        the Cartesian axis).
    
                   'zero-dim' :
                        3 translational asr + 3 rotational asr imposed
                        by optimized correction of the dyn. mat.
    
                   Note that in certain cases, not all the rotational asr
                   can be applied (e.g. if there are only 2 atoms in a
                   molecule or if all the atoms are aligned, etc.).  In
                   these cases the supplementary asr are canceled during
                   the orthonormalization procedure (see below).
                   
                   Finally, in all cases except 'no' a simple correction
                   on the effective charges is performed (same as in the
                   previous implementation).
   +--------------------------------------------------------------------
   
   +--------------------------------------------------------------------
   Variable:       axis
   
   Type:           INTEGER
   Description:    indicates the rotation axis for a 1D system (1=Ox, 2=Oy, 3=Oz)
   Default:        3
   +--------------------------------------------------------------------
   
   +--------------------------------------------------------------------
   Variable:       lperm
   
   Type:           LOGICAL
   Description:    if .true. then calculate Gamma-point mode contributions to
                   dielectric permittivity tensor
   Default:        .false.
   +--------------------------------------------------------------------
   
   +--------------------------------------------------------------------
   Variable:       lplasma
   
   Type:           LOGICAL
   Description:    if .true. then calculate Gamma-point mode effective plasma
                   frequencies, automatically triggers "lperm" = .true.
   Default:        .false.
   +--------------------------------------------------------------------
   
   +--------------------------------------------------------------------
   Variable:       filout
   
   Type:           CHARACTER
   Description:    output file containing phonon frequencies and normalized
                   phonon displacements (i.e. eigenvectors divided by the
                   square root of the mass and then normalized; they are
                   not orthogonal)
   Default:        'dynmat.out'
   +--------------------------------------------------------------------
   
   +--------------------------------------------------------------------
   Variable:       fileig
   
   Type:           CHARACTER
   Description:    output file containing phonon frequencies and eigenvectors
                   of the dynamical matrix (they are orthogonal)
   Default:        ' '
   +--------------------------------------------------------------------
   
   +--------------------------------------------------------------------
   Variable:       filmol
   
   Type:           CHARACTER
   Description:    as above, in a format suitable for molden
   Default:        'dynmat.mold'
   +--------------------------------------------------------------------
   
   +--------------------------------------------------------------------
   Variable:       filxsf
   
   Type:           CHARACTER
   Description:    as above, in axsf format suitable for xcrysden
   Default:        'dynmat.axsf'
   +--------------------------------------------------------------------
   
   +--------------------------------------------------------------------
   Variable:       loto_2d
   
   Type:           LOGICAL
   Description:    set to .true. to activate two-dimensional treatment of LO-TO splitting.
   Default:        '.false.'
   +--------------------------------------------------------------------
   
   +--------------------------------------------------------------------
   Variable:       el_ph_nsig
   
   Type:           INTEGER
   Description:    The number of double-delta smearing values used in an electron-phonon
                   coupling calculation.
   +--------------------------------------------------------------------
   
   +--------------------------------------------------------------------
   Variable:       el_ph_sigma
   
   Type:           REAL
   Description:    The spacing of double-delta smearing values used in an electron-phonon
                   coupling calculation.
   +--------------------------------------------------------------------
   
===END OF NAMELIST======================================================


This file has been created by helpdoc utility on Wed Dec 02 08:04:43 CET 2020
