mirror of https://gitlab.com/QEF/q-e.git
187 lines
6.0 KiB
Fortran
187 lines
6.0 KiB
Fortran
!
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! Copyright (C) 2001 PWSCF group
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! This file is distributed under the terms of the
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! GNU General Public License. See the file `License'
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! in the root directory of the present distribution,
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! or http://www.gnu.org/copyleft/gpl.txt .
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!
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!
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!-----------------------------------------------------------------------
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subroutine dmxc_spin (rhoup, rhodw, dmuxc_uu, dmuxc_ud, dmuxc_du, &
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dmuxc_dd)
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!-----------------------------------------------------------------------
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! derivative of the xc potential with respect to the local density
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!
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!
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use parameters, only : DP
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use funct
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implicit none
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! I/O variables
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real(kind=DP) :: rhoup, rhodw, dmuxc_uu, dmuxc_ud, dmuxc_du, dmuxc_dd
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! input: the up charge density
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! input: the dw charge density
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! output: the up-up derivative of the xc en
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! output: the up-dw derivative of the xc en
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! output: the dw-up derivative of the xc en
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! output: the dw-dw derivative of the xc en
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! DFT functional
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!-auxiliary variables
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real(kind=DP) :: rhotot, rs, zeta, fz, fz1, fz2, ex, vx, ecu, ecp, vcu, &
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vcp, dmcu, dmcp, dpz, dpz_polarized, aa, bb, cc
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real(kind=DP) :: dr, dz, ec, vxupm, vxdwm, vcupm, vcdwm, rho, vxupp, &
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vxdwp, vcupp, vcdwp
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integer :: iflg
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!-parameters
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real(kind=DP) :: small, e2, pi34, third, p43, p49, m23
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parameter (small = 1.d-30, e2 = 2.d0)
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parameter (pi34 = 0.75d0 / 3.141592653589793d+00, third = 1.d0 / &
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3.d0, p43 = 4.d0 / 3.d0, p49 = 4.d0 / 9.d0, m23 = - 2.d0 / 3.d0)
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dmuxc_uu = 0.d0
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dmuxc_du = 0.d0
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dmuxc_ud = 0.d0
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dmuxc_dd = 0.d0
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rhotot = rhoup + rhodw
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if (rhotot.le.small) return
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zeta = (rhoup - rhodw) / rhotot
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if (abs (zeta) .gt.1.d0) return
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if (iexch.eq.1.and.icorr.eq.1) then
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!
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! first case: analytical derivative available
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!
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!..exchange
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rs = (pi34 / (2.d0 * rhoup) ) **third
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call slater (rs, ex, vx)
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dmuxc_uu = vx / (3.d0 * rhoup)
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rs = (pi34 / (2.d0 * rhodw) ) **third
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call slater (rs, ex, vx)
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dmuxc_dd = vx / (3.d0 * rhodw)
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!..correlation
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rs = (pi34 / rhotot) **third
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iflg = 2
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if (rs.lt.1.0d0) iflg = 1
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dmcu = dpz (rs, iflg)
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dmcp = dpz_polarized (rs, iflg)
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call pz (rs, 1, ecu, vcu)
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call pz_polarized (rs, ecp, vcp)
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fz = ( (1.d0 + zeta) **p43 + (1.d0 - zeta) **p43 - 2.d0) &
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/ (2.d0**p43 - 2.d0)
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fz1 = p43 * ( (1.d0 + zeta) **third- (1.d0 - zeta) **third) &
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/ (2.d0**p43 - 2.d0)
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fz2 = p49 * ( (1.d0 + zeta) **m23 + (1.d0 - zeta) **m23) &
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/ (2.d0**p43 - 2.d0)
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aa = dmcu + fz * (dmcp - dmcu)
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bb = 2.d0 * fz1 * (vcp - vcu - (ecp - ecu) ) / rhotot
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cc = fz2 * (ecp - ecu) / rhotot
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dmuxc_uu = dmuxc_uu + aa + (1.d0 - zeta) * bb + (1.d0 - zeta) &
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**2 * cc
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dmuxc_du = dmuxc_du + aa + ( - zeta) * bb + (zeta**2 - 1.d0) &
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* cc
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dmuxc_ud = dmuxc_du
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dmuxc_dd = dmuxc_dd+aa - (1.d0 + zeta) * bb + (1.d0 + zeta) ** &
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2 * cc
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else
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rho = rhoup + rhodw
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dr = min (1.d-6, 1.d-4 * rho)
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call xc_spin (rho - dr, zeta, ex, ec, vxupm, vxdwm, vcupm, &
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vcdwm)
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call xc_spin (rho + dr, zeta, ex, ec, vxupp, vxdwp, vcupp, &
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vcdwp)
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dmuxc_uu = (vxupp + vcupp - vxupm - vcupm) / (2.d0 * dr)
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dmuxc_ud = dmuxc_uu
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dmuxc_dd = (vxdwp + vcdwp - vxdwm - vcdwm) / (2.d0 * dr)
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dmuxc_du = dmuxc_dd
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dz = min (1.d-6, 1.d-4 * abs (zeta) )
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call xc_spin (rho, zeta - dz, ex, ec, vxupm, vxdwm, vcupm, &
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vcdwm)
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call xc_spin (rho, zeta + dz, ex, ec, vxupp, vxdwp, vcupp, &
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vcdwp)
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dmuxc_uu = dmuxc_uu + (vxupp + vcupp - vxupm - vcupm) * &
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(1.d0 - zeta) / rho / (2.d0 * dz)
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dmuxc_ud = dmuxc_ud- (vxupp + vcupp - vxupm - vcupm) * (1.d0 + &
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zeta) / rho / (2.d0 * dz)
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dmuxc_du = dmuxc_du + (vxdwp + vcdwp - vxdwm - vcdwm) * &
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(1.d0 - zeta) / rho / (2.d0 * dz)
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dmuxc_dd = dmuxc_dd- (vxdwp + vcdwp - vxdwm - vcdwm) * (1.d0 + &
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zeta) / rho / (2.d0 * dz)
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endif
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!
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! scales to rydberg units
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!
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dmuxc_uu = e2 * dmuxc_uu
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dmuxc_du = e2 * dmuxc_du
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dmuxc_ud = e2 * dmuxc_ud
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dmuxc_dd = e2 * dmuxc_dd
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!
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return
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end subroutine dmxc_spin
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!-----------------------------------------------------------------------
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function dpz_polarized (rs, iflg)
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!-----------------------------------------------------------------------
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! derivative of the correlation potential with respect to the local den
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! Perdew and Zunger parameterization of the C.A. functional
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!
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use parameters, only : DP
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implicit none
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real(kind=DP) :: rs, dpz_polarized
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! input : the value of rs
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! output: the derivative of the corr. poten
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integer :: iflg
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! input : flag to choose the functional for
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real(kind=DP) :: b1, b2, a1, a2, gc, a, b, c, d, pi, fpi
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!\
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! \
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! \
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! \
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! parameter which define the functional
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!
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!
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!
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! /
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! /
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!/
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parameter (a = 0.01555d0, b = - 0.0269d0, c = 0.0007d0, d = &
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- 0.0048d0, gc = - 0.0843d0, b1 = 1.3981d0, b2 = 0.2611d0, a1 = &
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7.0d0 * b1 / 6.d0, a2 = 4.d0 * b2 / 3.d0, pi = 3.14159265358979d0, &
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fpi = 4.d0 * pi)
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real(kind=DP) :: x, den, dmx, dmrs
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! auxiliary variable
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! auxiliary variable
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! auxiliary variable
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! auxiliary variable
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if (iflg.eq.1) then
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dmrs = a / rs + 2.d0 / 3.d0 * c * (log (rs) + 1.d0) + (2.d0 * &
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d-c) / 3.d0
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else
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x = sqrt (rs)
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den = 1.d0 + x * (b1 + x * b2)
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dmx = gc * ( (a1 + 2.d0 * a2 * x) * den - 2.d0 * (b1 + 2.d0 * &
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b2 * x) * (1.d0 + x * (a1 + x * a2) ) ) / den**3
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dmrs = 0.5d0 * dmx / x
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endif
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!
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dpz_polarized = - fpi * rs**4.d0 / 9.d0 * dmrs
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return
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end function dpz_polarized
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