International audienceWe show that recently developed quantum Monte Carlo methods, which provide accurate vertical transition energies for single excitations, also successfully treat double excitations. We study the double excitations in medium-sized molecules, some of which are challenging for high level coupled-cluster calculations to model accurately. Our fixed-node diffusion Monte Carlo excitation energies are in very good agreement with reliable benchmarks, when available, and provide accurate predictions for excitation energies of difficult systems where reference values are lacking
We perform excited-state variational Monte Carlo and diffusion Monte Carlo calculations using a simp...
Quantum Monte Carlo (QMC) is a computational technique that can be applied to the electronic Schrödi...
Obtaining accurate ground and low-lying excited states of electronic systems is crucial in a multitu...
16 pages, 3 figuresInternational audienceExcited states exhibiting double excitation character are n...
We employ quantum Monte Carlo to obtain chemically accurate vertical and adiabatic excitation energi...
Abstract We report state-of-the-art quantum Monte Carlo calculations of the singlet n → π ∗ (CO) ver...
International audienceQuantum Monte Carlo (QMC) is a stochastic method that has been particularly su...
In this paper, we propose an improved excitation generation algorithm for the full configuration int...
Quantum Monte Carlo (QMC) has successfully computed the total electronic energies of atoms and molec...
We extend our hybrid linear-method/accelerated-descent variational Monte Carlo optimization approach...
Author Institution: Department of Chemistry, The Ohio State UniversityAn approach is described for a...
We review the use of continuum quantum Monte Carlo (QMC) methods for the calculation of energy gaps ...
International audienceQuantum Monte Carlo (QMC) methods have been applied very successfully to groun...
6 pages, 1 figure, 2 tablesInternational audienceWe report state-of-the-art quantum Monte Carlo calc...
With the development of peta-scale computers and exa-scale only a few years away, the quantum Monte ...
We perform excited-state variational Monte Carlo and diffusion Monte Carlo calculations using a simp...
Quantum Monte Carlo (QMC) is a computational technique that can be applied to the electronic Schrödi...
Obtaining accurate ground and low-lying excited states of electronic systems is crucial in a multitu...
16 pages, 3 figuresInternational audienceExcited states exhibiting double excitation character are n...
We employ quantum Monte Carlo to obtain chemically accurate vertical and adiabatic excitation energi...
Abstract We report state-of-the-art quantum Monte Carlo calculations of the singlet n → π ∗ (CO) ver...
International audienceQuantum Monte Carlo (QMC) is a stochastic method that has been particularly su...
In this paper, we propose an improved excitation generation algorithm for the full configuration int...
Quantum Monte Carlo (QMC) has successfully computed the total electronic energies of atoms and molec...
We extend our hybrid linear-method/accelerated-descent variational Monte Carlo optimization approach...
Author Institution: Department of Chemistry, The Ohio State UniversityAn approach is described for a...
We review the use of continuum quantum Monte Carlo (QMC) methods for the calculation of energy gaps ...
International audienceQuantum Monte Carlo (QMC) methods have been applied very successfully to groun...
6 pages, 1 figure, 2 tablesInternational audienceWe report state-of-the-art quantum Monte Carlo calc...
With the development of peta-scale computers and exa-scale only a few years away, the quantum Monte ...
We perform excited-state variational Monte Carlo and diffusion Monte Carlo calculations using a simp...
Quantum Monte Carlo (QMC) is a computational technique that can be applied to the electronic Schrödi...
Obtaining accurate ground and low-lying excited states of electronic systems is crucial in a multitu...