Add to ORKGThe quantum many-body bound-state problem in its computationally successful coupled cluster method (CCM) representation is reconsidered. In conventional practice one factorizes the groundstate wave functions |Ψ) = eS |Φ) which live in the “physical” Hilbert space H(P) using an elementary ansatz for |Φi plus a formal expansion of S in an operator basis of multi-configurational creation operators C+. In our paper a reinterpretation of the method is proposed. Using parallels between the CCM and the so called quasi-Hermitian, alias three-Hilbert-space (THS), quantum mechanics, the CCM transition from the known microscopic Hamiltonian (denoted by usual symbol H), which is self-adjoint in H(P), to its effective lower-case isospectral avatar h = e...
We enhance the recently proposed Optimized-orbital Quasi-Variational Coupled Cluster Doubles (OQVCCD...
AbstractTo solve the relativistic bound-state problem one needs to systematically and simultaneously...
Nuclear Hamiltonians constructed within chiral effective field theory provide an unprecedented oppor...
The quantum many-body bound-state problem in its computationally successful coupled cluster method (...
Renormalization is a powerful concept in the many-body problem. Inspired by the highly successful de...
Non-unitary theories are commonly seen in the classical simulations of quantum systems. Among these ...
AbstractWe describe the essential spectrum and prove the Mourre estimate for quantum particle system...
In the conventional Schr\"{o}dinger's formulation of quantum mechanics the unitary evolution of a st...
In quite a few recent quantum models one is allowed to make a given Hamiltonian H self-adjoint only ...
In non-relativistic quantum mechanics, stationary states of molecules and atoms are described by eig...
We develop ab-initio coupled-cluster theory to describe resonant and weakly bound states along the n...
State-average calculations based on a mixture of states are increasingly being exploited across chem...
Our overarching goal is the development of wavefunction-based quantum chemistry methods that give go...
This paper presents a new self‐consistent dressing of a singles and doubles configuration interactio...
A few recent innovations of the applicability of standard textbook Quantum Theory are reviewed. The ...
We enhance the recently proposed Optimized-orbital Quasi-Variational Coupled Cluster Doubles (OQVCCD...
AbstractTo solve the relativistic bound-state problem one needs to systematically and simultaneously...
Nuclear Hamiltonians constructed within chiral effective field theory provide an unprecedented oppor...
The quantum many-body bound-state problem in its computationally successful coupled cluster method (...
Renormalization is a powerful concept in the many-body problem. Inspired by the highly successful de...
Non-unitary theories are commonly seen in the classical simulations of quantum systems. Among these ...
AbstractWe describe the essential spectrum and prove the Mourre estimate for quantum particle system...
In the conventional Schr\"{o}dinger's formulation of quantum mechanics the unitary evolution of a st...
In quite a few recent quantum models one is allowed to make a given Hamiltonian H self-adjoint only ...
In non-relativistic quantum mechanics, stationary states of molecules and atoms are described by eig...
We develop ab-initio coupled-cluster theory to describe resonant and weakly bound states along the n...
State-average calculations based on a mixture of states are increasingly being exploited across chem...
Our overarching goal is the development of wavefunction-based quantum chemistry methods that give go...
This paper presents a new self‐consistent dressing of a singles and doubles configuration interactio...
A few recent innovations of the applicability of standard textbook Quantum Theory are reviewed. The ...
We enhance the recently proposed Optimized-orbital Quasi-Variational Coupled Cluster Doubles (OQVCCD...
AbstractTo solve the relativistic bound-state problem one needs to systematically and simultaneously...
Nuclear Hamiltonians constructed within chiral effective field theory provide an unprecedented oppor...