ELPH_SELFEN_CARRIER_DEN
ELPH_SELFEN_CARRIER_DEN = [real array]
Default: ELPH_SELFEN_CARRIER_DEN = 0.0
Description: List of additional carrier densities in units of at which to compute the electron-phonon self-energy and transport coefficients.
From each carrier density specified in the array, a positive (electron doping) or negative (hole doping) number of electrons is added to the value of NELECT and the chemical potential computed for the list of temperatures specified by ELPH_SELFEN_TEMPS.
For example, if ELPH_SELFEN_CARRIER_DEN = 1e+16 1e+17 1e+18
the Chemical potential section in the OUTCAR file might show something like
Number of electrons per cell ---------------------------- T= 0.00000000 18.00000048 18.00000477 18.00004770 T= 100.00000000 18.00000048 18.00000477 18.00004770 T= 200.00000000 18.00000048 18.00000477 18.00004770 T= 300.00000000 18.00000048 18.00000477 18.00004770 T= 400.00000000 18.00000048 18.00000477 18.00004770 T= 500.00000000 18.00000048 18.00000477 18.00004770 ---------------------------- Chemical potential ---------------------------- T= 0.00000000 3.59844447 3.63257112 3.70609450 T= 100.00000000 3.59030071 3.62874001 3.70431410 T= 200.00000000 3.56867975 3.61741491 3.69897926 T= 300.00000000 3.56382644 3.60063388 3.69013925 T= 400.00000000 3.57552043 3.59226062 3.67812706 T= 500.00000000 3.58994519 3.59815865 3.66491104 ----------------------------
The number of elements in ELPH_SELFEN_CARRIER_DEN determines the number of columns, the number of elements in ELPH_SELFEN_TEMPS the number of rows in the tables above.
Instead of specifying a carrier density, it is possible to explicitly specify the additional number of electrons to be added by using the ELPH_SELFEN_CARRIER_PER_CELL tag. Alternatively, one can specify the chemical potential directly and determine the carrier concentration using ELPH_SELFEN_MU.
The information related to the chemical potential calculation can be found under the Chemical potential calculation section in the OUTCAR.