Add to ORKGQuantum chemical calculations on quantum computers have been focused mostly on simulating molecules in gas-phase. Molecules in liquid solution are however most relevant for Chemistry. Continuum solvation models represent a good compromise between computational affordability and accuracy in describing solvation effects within a quantum chemical description of solute molecules. Here we report on the extension of the Variational Quantum Eigensolver to solvated systems, using the Polarizable Continuum Model. We show that accounting for solvation effects does not impact the algorithmic efficiency. Numerical results of noiseless simulations for molecular systems with up to twelve spin-orbitals (qubits) are presented. Furthermore, calculations per...
We report the first electronic structure calculation performed on a quantum computer without exponen...
The conductor-like polarization model (C-PCM) with switching/Gaussian smooth discretization is a wid...
Developments in computing hardware and algorithms have made direct molecular dynamics simulation wit...
Quantum chemical calculations on quantum computers have been focused mostly on simulating molecules ...
Polarizable continuum solvation models are nowadays the most popular approach to describe solvent ef...
Mathematical and Physical Sciences: 3rd Place (The Ohio State University Denman Undergraduate Resear...
We report the first electronic structure calculation performed on a quantum computer without exponen...
We examine the state of the art of the solvation procedure called the polarizable continuum model (P...
The conductor-like polarization model (C-PCM) with switching/Gaussian smooth discretization is a wid...
Polarizable continuum solvation models are nowadays the most popular approach to describe solvent ef...
Continuum models to handle solvent and electrolyte effects in an effective way have a long tradition...
In this paper, the performance of a wide range of DFT methods is assessed for the calculation of int...
Quantum refinement has repeatedly been shown to be a powerful approach to interpret and improve macr...
The calculation time for the energy of atoms and molecules scales exponentially with system size on ...
Continuum models to handle solvent and electrolyte effects in an effective way have a long tradition...
We report the first electronic structure calculation performed on a quantum computer without exponen...
The conductor-like polarization model (C-PCM) with switching/Gaussian smooth discretization is a wid...
Developments in computing hardware and algorithms have made direct molecular dynamics simulation wit...
Quantum chemical calculations on quantum computers have been focused mostly on simulating molecules ...
Polarizable continuum solvation models are nowadays the most popular approach to describe solvent ef...
Mathematical and Physical Sciences: 3rd Place (The Ohio State University Denman Undergraduate Resear...
We report the first electronic structure calculation performed on a quantum computer without exponen...
We examine the state of the art of the solvation procedure called the polarizable continuum model (P...
The conductor-like polarization model (C-PCM) with switching/Gaussian smooth discretization is a wid...
Polarizable continuum solvation models are nowadays the most popular approach to describe solvent ef...
Continuum models to handle solvent and electrolyte effects in an effective way have a long tradition...
In this paper, the performance of a wide range of DFT methods is assessed for the calculation of int...
Quantum refinement has repeatedly been shown to be a powerful approach to interpret and improve macr...
The calculation time for the energy of atoms and molecules scales exponentially with system size on ...
Continuum models to handle solvent and electrolyte effects in an effective way have a long tradition...
We report the first electronic structure calculation performed on a quantum computer without exponen...
The conductor-like polarization model (C-PCM) with switching/Gaussian smooth discretization is a wid...
Developments in computing hardware and algorithms have made direct molecular dynamics simulation wit...