# _== Convergency and starting # DATASET 1: LDA # DATASET 2: LDA+DMFT ndtset 2 jdtset 1 2 prtvol 4 pawprtvol 3 getwfk -1 ##### CONVERGENCE PARAMETERS nstep1 30 nstep2 1 ecut 16 # low cutoff ! pawecutdg 60 tolvrs 1.0d-7 nband 23 #npulayit 30 occopt 3 tsmear 2000 K ##### PHYSICAL PARAMETERS nspinor 1 nsppol 2 nspden 2 natom 5 ntypat 3 typat 1 2 3 3 3 znucl 23.0 38.0 8.0 # V Sr O*3 xred 0.00 0.00 0.00 0.50 0.50 0.50 0.50 0.00 0.00 0.00 0.50 0.00 0.00 0.00 0.50 acell 3*7.2605 rprim 1.0 0.0 0.0 0.0 1.0 0.0 0.0 0.0 1.0 # == Points k and symetries kptopt 4 kptrlatt 3 0 0 0 3 0 0 0 3 # insufficient nb of k-points. nshiftk 4 shiftk 1/2 1/2 1/2 1/2 0.0 0.0 0.0 1/2 0.0 0.0 0.0 1/2 istwfk *1 # == LDA+DMFT usedmft1 0 usedmft2 1 dmftbandi 21 # t2g bands only dmftbandf 23 # t2g bands only #dmft_nwlo 200 # log frequency are not used when dmft_solv=6 or 7 dmft_nwli 100 dmft_iter 1 dmftcheck 0 dmft_rslf 0 dmft_mxsf 0.7 dmft_dc 1 dmft_t2g 1 # special value for t2g only calculation. # For historical purposes only, do not use outside of tests dmft_occnd_imag 0 # == CTQMC dmft_solv 7 # Rotationally invariant interaction with TRIQS/CTHYB Monte Carlo code. dmftqmc_l 201 dmftqmc_n 2.d5 dmftqmc_therm 10000 dmft_tolfreq 0.01 dmftctqmc_triqs_nleg 30 # == DFT+U usepawu 1 # For density matrix printout. dmatpuopt 1 # The density matrix: the simplest expression. lpawu 2 -1 -1 upawu1 0.00 0.0 0.0 eV upawu2 3.1333333333333333 0.0 0.0 eV f4of2_sla3 0.0 0.0 0.0 jpawu2 0.7583333333333333 0.0 0.0 eV pp_dirpath "$ABI_PSPDIR" pseudos "23v.paw, 38sr.paw, 8o.2.paw" #%% #%% [setup] #%% executable = abinit #%% need_cpp_vars = HAVE_TRIQS_v1_4 #%% [files] #%% files_to_test = #%% t01.out, tolnlines =0, tolabs =1.1e-11, tolrel = 2.0e-12, fld_options=-medium ; #%% t01o_DS2_Legendre_coefficients.dat, tolnlines =0, tolabs =1.1e-11, tolrel = 2.0e-12, fld_options=-medium #%% [paral_info] #%% max_nprocs = 2 #%% [extra_info] #%% authors = B. Amadon, V. Planes #%% keywords = DMFT, CTQMC, TRIQS #%% description = Test CT-QMC within DMFT in ABINIT and QMC solver from TRIQS for VSrO3 NSCF over density #%%