Feff 8.40
 NOHOLE:
 Expert option, please read documentation carefully and check your results.
 RPHASES:
 Expert option, please read documentation carefully and check your results.
 Real phase shifts only will be used.  FEFF results will be unreliable.
  XANES:
 GeH_4  r=1.00 /AA
 Calculating potentials ...
    free atom potential and density for atom type    0
    free atom potential and density for atom type    1
    initial state energy
    overlapped potential and density for unique potential    0
    overlapped potential and density for unique potential    1
    muffin tin radii and interstitial parameters
 iph, rnrm(iph)*bohr, rmt(iph)*bohr, folp(iph)
    0  1.71506E+00  1.35613E+00  1.15000E+00
    1  1.09134E+00  8.62944E-01  1.15000E+00
              Core-valence separation
 mu_old=    -0.215
              SCF ITERATION NUMBER  1  OUT OF 30
 Calculating energy and space dependent l-DOS.
 It takes time ...
     point #   1  energy = -40.000
        Doing FMS for a cluster of   5 atoms around iph =  0
    0   FMS matrix (LUD) at point   1, number of state kets =  45
     point #  20  energy = -28.802
     point #  40  energy =  -9.564
     point #  60  energy =  -7.473
     point #  80  energy =  -6.280
  Electronic configuration
   iph    il      N_el
     0     0    1.723
     0     1    1.824
     0     2   10.259
     0     3    0.000
     1     0    0.978
     1     1    0.071
     1     2    0.000
     1     3    0.000
 mu_new=    -6.126
 Charge transfer:  iph  charge(iph)
       0    0.039
       1   -0.010
negative dens  10  1
negative dens  20  1
negative dens  30  1
negative dens  40  1
              SCF ITERATION NUMBER  2  OUT OF 30
 Calculating energy and space dependent l-DOS.
 It takes time ...
     point #   1  energy = -40.000
        Doing FMS for a cluster of   5 atoms around iph =  0
    0   FMS matrix (LUD) at point   1, number of state kets =  45
     point #  20  energy = -28.709
     point #  40  energy =  -8.179
     point #  60  energy =  -6.151
  Electronic configuration
   iph    il      N_el
     0     0    1.734
     0     1    1.853
     0     2   10.255
     0     3    0.000
     1     0    0.968
     1     1    0.071
     1     2    0.000
     1     3    0.000
 mu_new=    -6.195
 Charge transfer:  iph  charge(iph)
       0    0.151
       1   -0.038
negative dens  10  1
negative dens  20  1
negative dens  30  1
negative dens  40  1
negative dens  50  1
negative dens  60  1
              SCF ITERATION NUMBER  3  OUT OF 30
 Calculating energy and space dependent l-DOS.
 It takes time ...
     point #   1  energy = -40.000
        Doing FMS for a cluster of   5 atoms around iph =  0
    0   FMS matrix (LUD) at point   1, number of state kets =  45
     point #  20  energy = -28.732
     point #  40  energy =  -8.244
     point #  60  energy =  -6.207
     point #  80  energy =  -6.567
  Electronic configuration
   iph    il      N_el
     0     0    1.758
     0     1    1.927
     0     2   10.244
     0     3    0.000
     1     0    0.947
     1     1    0.071
     1     2    0.000
     1     3    0.000
 mu_new=    -6.409
 Charge transfer:  iph  charge(iph)
       0    0.136
       1   -0.034
negative dens  10  1
negative dens  20  1
negative dens  30  1
negative dens  40  1
negative dens  50  1
negative dens  60  1
              SCF ITERATION NUMBER  4  OUT OF 30
 Calculating energy and space dependent l-DOS.
 It takes time ...
     point #   1  energy = -40.000
        Doing FMS for a cluster of   5 atoms around iph =  0
    0   FMS matrix (LUD) at point   1, number of state kets =  45
     point #  20  energy = -28.803
     point #  40  energy =  -8.445
     point #  60  energy =  -6.384
  Electronic configuration
   iph    il      N_el
     0     0    1.752
     0     1    1.905
     0     2   10.247
     0     3    0.000
     1     0    0.953
     1     1    0.071
     1     2    0.000
     1     3    0.000
 mu_new=    -6.378
 Charge transfer:  iph  charge(iph)
       0    0.121
       1   -0.030
negative dens  10  1
negative dens  20  1
negative dens  30  1
negative dens  40  1
negative dens  50  1
negative dens  60  1
              SCF ITERATION NUMBER  5  OUT OF 30
 Calculating energy and space dependent l-DOS.
 It takes time ...
     point #   1  energy = -40.000
        Doing FMS for a cluster of   5 atoms around iph =  0
    0   FMS matrix (LUD) at point   1, number of state kets =  45
     point #  20  energy = -28.793
     point #  40  energy =  -8.416
     point #  60  energy =  -6.353
  Electronic configuration
   iph    il      N_el
     0     0    1.746
     0     1    1.882
     0     2   10.250
     0     3    0.000
     1     0    0.960
     1     1    0.071
     1     2    0.000
     1     3    0.000
 mu_new=    -6.343
 Charge transfer:  iph  charge(iph)
       0    0.121
       1   -0.030
 Done with module 1: potentials.
 Calculating LDOS ...
              LDOS calculation for specified grid
 Calculating energy and space dependent l-DOS.
 It takes time ...
     potential type  0
     potential type  1
 Number of energy points = 401
 Doing FMS for a cluster of   5 atoms around iph =  0
 Please, wait (updates every 20 points) ...
    0   FMS matrix (LUD) at point  20, number of state kets =  52
    0   FMS matrix (LUD) at point  40, number of state kets =  52
    0   FMS matrix (LUD) at point  60, number of state kets =  52
    0   FMS matrix (LUD) at point  80, number of state kets =  52
    0   FMS matrix (LUD) at point 100, number of state kets =  52
    0   FMS matrix (LUD) at point 120, number of state kets =  52
    0   FMS matrix (LUD) at point 140, number of state kets =  52
    0   FMS matrix (LUD) at point 160, number of state kets =  52
    0   FMS matrix (LUD) at point 180, number of state kets =  52
    0   FMS matrix (LUD) at point 200, number of state kets =  52
    0   FMS matrix (LUD) at point 220, number of state kets =  52
    0   FMS matrix (LUD) at point 240, number of state kets =  52
    0   FMS matrix (LUD) at point 260, number of state kets =  52
    0   FMS matrix (LUD) at point 280, number of state kets =  52
    0   FMS matrix (LUD) at point 300, number of state kets =  52
    0   FMS matrix (LUD) at point 320, number of state kets =  52
    0   FMS matrix (LUD) at point 340, number of state kets =  52
    0   FMS matrix (LUD) at point 360, number of state kets =  52
    0   FMS matrix (LUD) at point 380, number of state kets =  52
    0   FMS matrix (LUD) at point 400, number of state kets =  52
 Calculating chi and rho...    0
 Calculating chi and rho...    1
 Done with LDOS.
 Calculating cross-section and phases...
    absorption cross section
    phase shifts for unique potential    0
    phase shifts for unique potential    1
 Done with module 2: cross-section and phases...
 Number of energy points =  90
 Doing FMS for a cluster of   5 atoms around iph =  0
 Please, wait (updates every 20 points) ...
    0   FMS matrix (LUD) at point  20, number of state kets =  52
    0   FMS matrix (LUD) at point  40, number of state kets =  52
    0   FMS matrix (LUD) at point  60, number of state kets =  52
    0   FMS matrix (LUD) at point  80, number of state kets =  52
 Done with module 3: FMS.
 Preparing plane wave scattering amplitudes...
 Searching for paths...
   WARNING:  rmax > distance to most distant atom.
             Some paths may be missing.
             rmax, ratx   1.00000E+00  0.00000E+00
    Rmax  1.0000  keep and heap limits   0.0000000   0.0000000
    Preparing neighbor table
   Internal path finder limit exceeded -- path list may be incomplete.
    Paths found        0   (maxheap, maxscatt       1   0)
 Eliminating path degeneracies...
    Plane wave chi amplitude filter   2.50%
    Unique paths      0,  total paths       0
 Done with module 4: pathfinder.
 Calculating EXAFS parameters...
    Curved wave chi amplitude ratio   4.00%
    Discard feff.dat for paths with cw ratio <   2.67%
    path  cw ratio     deg    nleg  reff
    0 paths kept,    0 examined.
 Done with module 5: F_eff.
 Calculating chi...
    Use all paths with cw amplitude ratio   4.00%
    S02  1.000  Global sig2  0.00000
 Done with module 6: DW + final sum over paths.