Add to ORKGThe second quantum revolution is all about exploiting the quantum nature of atoms and molecules to execute quantum information processing tasks. To support this growing endeavor and by anticipating the key role of quantum chemistry therein, our work establishes a toolbox for systematically exploring, quantifying and dissecting correlation effects in quantum chemical systems. By utilizing the geometric picture of quantum states we compare -- on a unified basis and in an operationally meaningful way -- total, quantum and classical correlation and entanglement in molecular ground states. To maximize the quantum informational resourcefulness of molecules an orbital optimization scheme is provided, leading to a paradigm-shifting insight: A singl...
The quantum topological energy partitioning method Interacting Quantum Atoms (IQA) has been applied ...
Tesis con mención internacionalThe chemical bond might be considered as the central pillar of chemis...
The mathematical representation of chemical bonds in molecules is discussed. The molecule is viewed ...
The accurate calculation of the (differential) correlation energy is central to the quantum chemical...
We use the concept of quantum entanglement to give a physical meaning to the electron correlation e...
The chemical bond is an important local concept to understand chemical compounds and processes. Unfo...
We review the current status of quantum chemistry as a predictive tool of chemistry and molecular ph...
ABSTRACT: Quantum chemical methods for the calculation of molecular properties to chemical accuracy ...
Electron–electron correlation in quantum chemistry calculations can be analysed in terms of entangle...
Entanglement is a concept commonly used with reference to the existence of certain correlations in q...
Today's quantum chemistry methods are extremely powerful but rely upon complex quantities such as th...
Accurate quantum computational chemistry has evolved dramatically. The size of molecular systems, wh...
We apply correlation analysis of chemical bonds (CACB) to simple organic reaction paths. CACB, an op...
In this study, we explore the use of molecules and molecular electronics for quantum computing. We c...
We study the relation between quantum entanglement and electron correlation in quantum chemistry cal...
The quantum topological energy partitioning method Interacting Quantum Atoms (IQA) has been applied ...
Tesis con mención internacionalThe chemical bond might be considered as the central pillar of chemis...
The mathematical representation of chemical bonds in molecules is discussed. The molecule is viewed ...
The accurate calculation of the (differential) correlation energy is central to the quantum chemical...
We use the concept of quantum entanglement to give a physical meaning to the electron correlation e...
The chemical bond is an important local concept to understand chemical compounds and processes. Unfo...
We review the current status of quantum chemistry as a predictive tool of chemistry and molecular ph...
ABSTRACT: Quantum chemical methods for the calculation of molecular properties to chemical accuracy ...
Electron–electron correlation in quantum chemistry calculations can be analysed in terms of entangle...
Entanglement is a concept commonly used with reference to the existence of certain correlations in q...
Today's quantum chemistry methods are extremely powerful but rely upon complex quantities such as th...
Accurate quantum computational chemistry has evolved dramatically. The size of molecular systems, wh...
We apply correlation analysis of chemical bonds (CACB) to simple organic reaction paths. CACB, an op...
In this study, we explore the use of molecules and molecular electronics for quantum computing. We c...
We study the relation between quantum entanglement and electron correlation in quantum chemistry cal...
The quantum topological energy partitioning method Interacting Quantum Atoms (IQA) has been applied ...
Tesis con mención internacionalThe chemical bond might be considered as the central pillar of chemis...
The mathematical representation of chemical bonds in molecules is discussed. The molecule is viewed ...