* fix not initialized variable Glatt_iw
* add simple run tests for all 4 DFT codes to test at least if
calc_density_correction runs without errors
* small formatting fixes
* previously the default gf_struct_solver had keys up / down,
inconsistent with the default behavior after analyse_block_structure was
run: up_0 / down_0. Now the default solver structure always has the _0
in the key.
* old behavior resulted in error when analyse_block_structure was called
twice
* fixed analyse block structure tests with new changes
* to correctly use analyse_block_structure use now
extract_G_loc(transform_to_solver_blocks=False)
* changed density_matrix function to use directly extract_G_loc() if
using_gf is selected.
* print deprecation warning in density_matrix, same can be achieved via
extract_G_loc and [G.density() for G in Gloc]
* new function density_matrix_using_point_integration()
* enforce in analyse block structure that input dm or G is list with
length of n_corr_shells
* correct doc string for how include_shells are given
* fixed other tests accordingly
* fixed small bug in initial block structure regarding length of lists
* typos and subbed check in spin polarized calculations for quantum espresso with a warning when computing the deltaN
* fixed typos in comments
* removed legacy mode maintaining only compatibility layer and switched to old (<3.10) python syntax
* added target density output in mu finder for brent and newton, refactored tunit test for DC, changed some comments
* elk-transport
* minor updates
* specify explicitly fortran compiler and python exe in CMAKE
Co-authored-by: Alexander Hampel <ahampel@flatironinstitute.org>
This caused inconsistencies between the shapes of Hloc and density_matrix,
since they were in the shape of n_corr_shells vs n_inequiv_shells, respectively.
Default behavior unchanged. If parameter kpts_to_write is given and if dm_type=='vasp', only the selected k points are written to the density correction GAMMA file.
Can be used for running Vasp with symmetries, where Vasp requires only the density correction from the irreducible Brillouin zone.
* For density correction in vasp, added option to select kpoints
* Made docstring of calc_density_correction clearer
Adding Elk-TRIQS interface (first iteration)
This interface reads in Elk's ground-state files / projectors generated by a specific Elk interface code version (https://github.com/AlynJ/Elk_interface-TRIQS). The interface can perform charge-self consistent DFT+DMFT calculations using the aforementioned Elk code version, including spin orbit-coupling. Hence, this is the first open source interfaced DFT code to triqs with FCSC support.
The commit includes detailed documentation and tutorials on how to use this interface. Moreover, further new post-processing routines are added for Fermi surface plots and spectral functions (A(w)) from the elk inputs.
The interface was tested by A. James and A. Hampel. However, this is the first iteration of the interface and should be used with care. Please report all bugs.
List of changes:
---------------
- sumk.py: added cacluation of charge density correction for elk (dm_type='elk').
- sumk_dft_tools.py: added new post-processing functions to calculate the Fermi surface and A(w) from the Elk inputs.
- documentation and tutorial files amended for this interface.
- added python tests for the Elk converter.