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Adaptive multiconfigurational wave functions

2 Pith papers cite this work. Polarity classification is still indexing.

2 Pith papers citing it
abstract

A method is suggested to build simple multiconfigurational wave functions specified uniquely by an energy cutoff $\Lambda$. These are constructed from a model space containing determinants with energy relative to that of the most stable determinant no greater than $\Lambda$. The resulting $\Lambda$-CI wave function is adaptive, being able to represent both single-reference and multireference electronic states. We also consider a more compact wave function parameterization ($\Lambda$+SD-CI), which is based on a small $\Lambda$-CI reference and adds a selection of all the singly and doubly excited determinants generated from it. We report two heuristic algorithms to build $\Lambda$-CI wave functions. The first is based on an approximate prescreening of the full configuration interaction space, while the second consists of a breadth-first search coupled with pruning. The $\Lambda$-CI and $\Lambda$+SD-CI approaches are used to compute the dissociation curve of N$_2$ and the potential energy curves for the first three singlet states of C$_2$. Special attention is paid to the issue of energy discontinuities caused by changes in the size of the $\Lambda$-CI wave function along the potential energy curve. This problem is shown to be solvable by smoothing the matrix elements of the Hamiltonian. Our last example, involving the Cu$_2$O$_2^{2+}$ core, illustrates an alternative use of the $\Lambda$-CI method: as a tool to both estimate the multireference character of a wave function and to create a compact model space to be used in subsequent high-level multireference coupled cluster computations.

years

2026 2

verdicts

UNVERDICTED 2

representative citing papers

Dyck language and fermionic second quantization: II. Applications

physics.chem-ph · 2026-05-26 · unverdicted · novelty 6.0

Maps fermionic creation/annihilation operators to bracket sequences to derive sufficient conditions for zero expectation values and their signs, with extension to commutators and open-source software implementation.

citing papers explorer

Showing 2 of 2 citing papers.

  • Dyck language and fermionic second quantization: II. Applications physics.chem-ph · 2026-05-26 · unverdicted · none · ref 7 · internal anchor

    Maps fermionic creation/annihilation operators to bracket sequences to derive sufficient conditions for zero expectation values and their signs, with extension to commutators and open-source software implementation.

  • Dyck language and fermionic second quantization: I. Theory physics.chem-ph · 2026-05-26 · unverdicted · none · ref 9 · internal anchor

    The paper defines operator-to-bracket translations that turn nullity of fermionic expectation values into a purely syntactic check on balanced bracket sequences.