fcdmft.gw.mol.qsgw module#
Spin-restricted Quasiparticle Self-consistent GW based on the GW-AC (analytic continuation) scheme
- Method:
T. Zhu and G.K.-L. Chan, J. Chem. Theory. Comput. 17, 727-741 (2021) Compute self-energy on imaginary frequency with density fitting, then analytically continued to real frequency
- Other useful references:
Phys. Rev. B 76, 165106 (2007) Front. Chem. 9:736591 (2021) J. Chem. Theory. Comput. 12, 2528-2541 (2016)
- class fcdmft.gw.mol.qsgw.QSGW(mf, frozen=None, auxbasis=None)[source]#
Bases:
GWAC- Attributes:
- nmo
- nocc
Methods
__call__(*args, **kwargs)Update the attributes of the current object.
ao2mo([mo_coeff])Transform density-fitting integral from AO to MO.
apply(fn, *args, **kwargs)Apply the fn to rest arguments: return fn(*args, **kwargs). The return value of method set is the object itself. This allows a series of functions/methods to be executed in pipe.
check_sanity()Check input of class/object attributes, check whether a class method is overwritten.
copy()Returns a shallow copy
energy_tot([mode])"Get qsGW total energy using Galitskii-Migdal formula.
get_ef([mo_energy])Get Fermi level.
get_frozen_mask()Get boolean mask for the restricted reference orbitals.
get_sigma_exchange(mo_coeff)Get exchange self-energy (EXX).
initialize_df([auxbasis])Initialize density fitting.
kernel()Run a quasiparticle self-consistent GW calculation.
loop_ao2mo([mo_coeff, ijslice])Transform density-fitting integral from AO to MO by block.
make_gf(omega[, eta, mode])Get qsGW Green's function by AC fitting.
make_rdm1([ao_repr, mode])make qsGW 1-particle density matrix in either MO or AO space
post_kernel(envs)A hook to be run after the main body of the kernel function.
pre_kernel(envs)A hook to be run before the main body of kernel function is executed.
run(*args, **kwargs)Call the kernel function of current object.
set(*args, **kwargs)Update the attributes of the current object.
setup_evaluation_grid([fallback_freqs, ...])Set up self-energy grid, aka freqs2, aka gw.freqs.
view(cls)New view of object with the same attributes.
dump_chk
dump_flags
get_nmo
get_nocc
- energy_tot(mode='dyson')[source]#
“Get qsGW total energy using Galitskii-Migdal formula. V. M. Galitskii and A. B. Migdal, Zh. E ksp. Teor. Fiz. 34, 139~1958! @Sov. Phys. JETP 139, 96 ~1958!# working equation: equation.A5 in Phys. Rev. B 88, 075105
Hartree-Fock energy is evaluated with qsGW density matrix. G = [G0^-1 - sigma]^-1 where G0 = [w - Fock]^-1 and sigma = sigma_c + (ham_qp - ham_mf) = sigma_c + 1e correction
Parameters mode : str
mode for Dyson equation, ‘linear’ or ‘dyson’, by default ‘dyson’
- Returns:
- etotdouble
total energy
- ehfdouble
Hartree-Fock energy
- ecdouble
correlation energy
- make_gf(omega, eta=0.0, mode='dyson')[source]#
Get qsGW Green’s function by AC fitting.
- Parameters:
- Returns:
- fcdmft.gw.mol.qsgw.qs_sigmaR_mode_a(qp_energy, acobj)[source]#
Mode A to evaluate static qsGW self-energy. Equation 15 in doi.org/10.1063/5.0125756 Equation 10 in doi.org/10.1103/PhysRevB.76.165106