In multicomponent quantum chemistry, more than one type of particle is treated quantum
mechanically with either density functional theory or wave function based methods. In …

Fragmentation and embedding schemes are of great importance when applying quantum-
chemical calculations to more complex and attractive targets. The divide-and-conquer (DC) …

Nuclear quantum effects such as zero point energy play a critical role in computational
chemistry and often are included as energetic corrections following geometry optimizations …

The nuclear-electronic orbital (NEO) method treats all electrons and specified nuclei,
typically protons, quantum mechanically on the same level with molecular orbital …

Nuclear quantum effects such as zero-point energy are important for describing a wide
range of chemical properties. The nuclear− electronic orbital (NEO) approach incorporates …

We recently introduced [J. Chem. Phys. 2020, 152, 204103] the nuclear-electronic all-
particle density matrix renormalization group (NEAP-DMRG) method to solve the molecular …

The any particle molecular orbital (APMO) approach extends regular electronic structure
methods to study atomic and molecular systems in which electrons and other particles are …

LOWDIN is a computational program that implements the Any Particle Molecular Orbital
(APMO) method. The current version of the code encompasses Hartree–Fock, second‐order …

The nuclear-electronic orbital (NEO) framework enables computationally practical coupled
cluster calculations of multicomponent molecular systems, in which all electrons and …

We recently extended the electron propagator theory to any type of quantum species based
in the framework of the Any-Particle Molecular Orbital (APMO) approach [J. Romero, E …