Theoretical Methods: SCF to FCI¶
Several electronic structure methods are available in the PSI4 package, from Hartree–Fock molecular orbital theory to coupled-cluster theory to full configuration interaction. This section introduces the methods available and some of their most common input parameters. A complete list of standard keywords is provided in Appendix Keywords by Module.
- Capabilities and Alternate Implementations
- Notes on Options
- Notes on PSI Variables
- HF: Hartree–Fock Theory
- Introduction
- Theory
- Minimal Input
- Spin/Symmetry Treatment
- Broken Symmetry
- Orthogonalization
- Initial Guess
- Restarting the SCF
- Convergence Stabilization
- ERI Algorithms
- Integral-Direct Density-Fitted Coulomb Construction
- COSX Exchange
- Linear Exchange
- Second-order Convergence
- Stability Analysis
- Effective core potentials (ECPs)
- External potentials and QM/MM
- Convergence and Algorithm Defaults
- Recommendations
- DFT: Density Functional Theory
- DFT-NL
- DCT: Density Cumulant Theory
- DF-MP2: Density-Fitted 2nd-Order Møller–Plesset Perturbation Theory
- DLPNO-MP2: Domain-Based Local Pair Natural Orbital MP2
- CC: Coupled Cluster Theory
- FNOCC: Frozen natural orbitals for CCSD(T), QCISD(T), CEPA, and MP4
- OCC: Orbital-Optimized Coupled-Cluster and Møller–Plesset Perturbation Theories
- PSIMRCC Implementation of Mk-MRCC Theory
- CI: Configuration Interaction
- MCSCF: Multi-Configurational Self-Consistent-Field
- SAPT: Symmetry-Adapted Perturbation Theory
- The S2 approximation and scaling
- A First Example
- Advanced example
- SAPT0
- SAPT(DFT)
- Higher-Order SAPT
- MP2 Natural Orbitals
- Charge-Transfer in SAPT
- Monomer-Centered Basis Computations
- Computations with Mid-bonds
- Interpreting SAPT Results
- Spin-Flip SAPT
- Higher-Order Exchange Terms without Single-Exchange Approximation
- F/I-SAPT: Functional Group and/or Intramolecular SAPT
- ADC: Ab Initio Polarization Propagator
- Scalar relativistic Hamiltonians
- Geometry Optimization
- Evaluation of One-Electron Properties —
oeprop()
- Vibrational and Thermochemical Analysis
- TDSCF: Time-dependent Hartree–Fock and density-functional theory