The aim of this article is to propose a new reduced-order modelling approach for parametric eigenvalue problems arising in electronic structure calculations. Namely, we develop nonlinear reduced basis techniques for the approximation of parametric eigenvalue problems inspired from quantum chemistry applications. More precisely, we consider here a onedimensional model which is a toy model for the computation of the electronic ground state wavefunction of a system of electrons within a molecule, solution to the many-body electronic Schrödinger equation, where the varying parameters are the positions of the nuclei in the molecule. We estimate the decay rate of the Kolmogorov n-width of the set of solutions for this parametric problem in severa...
Abstract. We present a new method for electronic structure calculations based on novel algorithms fo...
This thesis focuses on the numerical analysis of nonlinear eigenvalue problem, as in quantum chemist...
In many biology, chemistry and physics applications quantum mechanics is used to study material and ...
The aim of this article is to propose a new reduced-order modelling approach for parametric eigenval...
The aim of this article is to propose a new reduced-order modelling approach for parametric eigenval...
International audienceDue to the high dimensionality of the spaces where the problems are set, adapt...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2007.Includ...
This paper considers the solution of a family of Schrodinger equations, characterized by one or more...
This paper considers the solution of a family of Schrodinger equations, characterized by one or more...
In this Note, we describe a reduced basis approximation method for the computation of some electroni...
The fundamental equation governing a non-relativistic quantum system of N particles is the time-depe...
Abstract. We investigate the efficient computation of a few of the lowest eigenvalues of a symmetric...
A new methodology is proposed for the efficient determination of Green`s functions and eigenstates f...
We present a methodology to investigate phase diagrams of quantum models based on the principle of t...
Classical algorithms that simulate the electronic and vibrational structure of atoms and molecules a...
Abstract. We present a new method for electronic structure calculations based on novel algorithms fo...
This thesis focuses on the numerical analysis of nonlinear eigenvalue problem, as in quantum chemist...
In many biology, chemistry and physics applications quantum mechanics is used to study material and ...
The aim of this article is to propose a new reduced-order modelling approach for parametric eigenval...
The aim of this article is to propose a new reduced-order modelling approach for parametric eigenval...
International audienceDue to the high dimensionality of the spaces where the problems are set, adapt...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2007.Includ...
This paper considers the solution of a family of Schrodinger equations, characterized by one or more...
This paper considers the solution of a family of Schrodinger equations, characterized by one or more...
In this Note, we describe a reduced basis approximation method for the computation of some electroni...
The fundamental equation governing a non-relativistic quantum system of N particles is the time-depe...
Abstract. We investigate the efficient computation of a few of the lowest eigenvalues of a symmetric...
A new methodology is proposed for the efficient determination of Green`s functions and eigenstates f...
We present a methodology to investigate phase diagrams of quantum models based on the principle of t...
Classical algorithms that simulate the electronic and vibrational structure of atoms and molecules a...
Abstract. We present a new method for electronic structure calculations based on novel algorithms fo...
This thesis focuses on the numerical analysis of nonlinear eigenvalue problem, as in quantum chemist...
In many biology, chemistry and physics applications quantum mechanics is used to study material and ...
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