Index
| A-tensor [1] | fragment orbitals [1] | Perdew-Zunger SIC [1] |
| adf2aim [1] | fragments [1] | periodic table [1] |
| adfnbo [1] | fragments files [1] | point charges [1] |
| AIM [1] | frequencies [1] | polarizability [1] [2] |
| alternative elements [1] | frequency scan [1] | population analysis [1] |
| analytic second derivatives [1] | frozen core approximation [1] | precision [1] |
| atomic coordinates [1] | frozen-density embedding [1] | precision SCF [1] |
| atomic database [1] [2] | g-tensor [1] [2] | pseudopotentials [1] |
| atoms in molecules [1] | gennbo [1] | PW91 [1] |
| automatic mode [1] | geometry optimization [1] | Q-tensor [1] |
| B1LYP [1] | GGA functionals [1] | QM/MM [1] [2] |
| B1PW91 [1] | ghost atoms [1] | quadrupole moment [1] |
| B3LYP [1] | GRAC [1] | Raman (resonance) [1] |
| B3LYP* [1] | Hartree-Fock (post SCF) [1] | Raman for selected frequencies [1] |
| Bader's analysis [1] | Hartree-Fock (SCF) [1] [2] | Raman intensities [1] |
| BAS [1] | Hessian [1] | Raman scattering [1] |
| basic atoms [1] | Hirshfeld charges [1] [2] | reaction path [1] |
| basis functions [1] | homogeneous electric field [1] | reduction of output [1] |
| basis set superposition error [1] | hybrid functionals (post SCF) [1] | relativistic core potentials [1] |
| basis sets [1] [2] | hybrid functionals (SCF) [1] [2] | relativistic effects [1] |
| BHandH [1] | hyperfine interaction [1] | remove fragment orbitals [1] |
| BHandHLYP [1] | hyperpolarizability [1] [2] | resonance Raman [1] |
| BLYP [1] | imaginary frequencies [1] | response properties [1] |
| bond energy analysis [1] [2] [3] | infrared frequencies [1] | restart file [1] |
| bond order [1] [2] [3] [4] | infrared intensities [1] | restrained optimizations [1] |
| BP86 [1] | initial Hessian [1] | revPBE [1] |
| broken symmetry [1] | internal coordinates [1] | RPBE [1] |
| BSSE [1] | intrinsic reaction coordinate [1] | run types [1] |
| C6 coefficient [1] | IR frequencies [1] | SAOP [1] |
| Cartesian functions [1] | IRC [1] | SCF problems [1] |
| CD spectrum [1] | irreducible representation [1] | Schönflies symbol [1] |
| charge analysis [1] | isotope shift [1] | self-interaction correction [1] |
| CINEB [1] | KMLYP [1] | SFO [1] |
| circular dichroism [1] | KT1 [1] | SFO population analysis [1] |
| climbing-image nudged elastic band [1] | LB94 [1] | SIC potentials [1] |
| collinear [1] | LDA functionals [1] | singlet-singlet excitations [1] |
| constrained optimizations [1] [2] [3] | linear dependency [1] | singlet-triplet excitations [1] |
| constrained space orbital variation [1] | linear scaling techniques [1] | smeared occupations [1] |
| convergence problems [1] | linear transit [1] | smoothing of gradients [1] |
| core excitations [1] | localized orbitals [1] | solvent effects [1] [2] |
| core potential [1] | LT (linear transit) [1] | spin [1] |
| COSMO [1] | Mayer bond order [1] [2] | spin-flip excitations [1] |
| create mode [1] | MDC [1] [2] | spin-orbit coupling [1] |
| CSOV analysis [1] | memory usage [1] | spin-orbit TDDFT [1] |
| Davidson algorithm [1] | meta-GGA functionals [1] | spin-polarized calculation [1] |
| debug [1] | minimal input [1] | STO [1] |
| delocalized coordinates [1] | MM dispersion [1] | STO basis sets [1] [2] |
| density fitting [1] | model potentials [1] [2] | subspecies [1] |
| dependency [1] | MOPAC Z-matrix [1] | symmetry [1] |
| DIIS [1] | mPBE [1] | symmetry label [1] |
| dipole allowed [1] | mPW [1] | TAPE13 [1] |
| dipole moment [1] | mPW1K [1] | TAPE21 [1] |
| discrete solvent RF model [1] | mPW1PW [1] | TDCDFT [1] |
| dispersion (MM) [1] | Mulliken population [1] | TDDFT [1] |
| dispersion coefficients [1] | Mulliken poulation [1] | TDDFT SO [1] |
| double group symmetry [1] | multiplet states [1] | thermodynamics [1] |
| doublet-doublet excitations [1] | multipole derived charges [1] [2] | time-dependent current DFT [1] |
| doublet-quartet excitations [1] | Nalewajski-Mrozek bond order [1] | time-dependent DFT [1] |
| DRF [1] | NBO-analysis [1] | transition state [1] |
| EFG [1] | NMR chemical shifts [1] | trouble shooting [1] |
| electric field (homogeneous) [1] | NMR spin-spin coupling [1] | TS (transition state) [1] |
| electric field gradient [1] | non-collinear [1] | unrestricted calculation [1] |
| electron paramagnetic resonance [1] [2] | NQCC [1] | unrestricted fragments [1] |
| electron smearing [1] | numerical integration [1] | UV/Vis [1] |
| electron spin resonance [1] [2] | O3LYP [1] | van der Waals interaction [1] [2] |
| electronic configuration [1] [2] [3] | OLYP [1] | VCD [1] |
| end input [1] | OPBE0 [1] | VDD charges [1] [2] |
| EPR [1] [2] | open shell TDDFT [1] | Voronoi deformation density [1] [2] |
| ESR [1] [2] | optical rotation (dispersion) [1] | VWN [1] |
| exchange-correlation [1] | orbital localization [1] | X-ray photoelectron spectroscopy [1] |
| excitation energies [1] | ORD [1] | X3LYP [1] |
| excitation energies spin-orbit [1] | orthonormal basis [1] | XC [1] |
| execution of ADF [1] | parallel version [1] | XPS [1] |
| FDE [1] | partial Hessian [1] | Z-matrix coordinates [1] |
| fit functions [1] | Pauli Hamiltonian [1] | Zeeman interaction [1] [2] |
| force constants [1] | PBE [1] | ZORA [1] |
| fragment mode [1] | PBE0 [1] |
