Abstract. In the past decade, coupled-cluster theory has seen a renaissance in nuclear physics, with computations of neutron-rich and medium-mass nuclei. The method is efficient for nuclei with product-state references, and it describes many aspects of weakly bound and unbound nuclei. This report reviews the technical and conceptual developments of this method in nuclear physics, and the results of coupled-cluster calculations for nucleonic matter, and for exotic isotopes of helium, oxygen, calcium, and some of their neighbors
This thesis describes the application of coupled-cluster theory to model systems of metallic solids ...
Nuclear clustering describes the appearance of structures resembling smaller nuclei such as alpha pa...
Known and proposed helium chemistry embraces a large variety of small-size cationic species. Even th...
We discuss computational aspects of the spherical coupled-cluster method specific to the nuclear man...
The standard and renormalized coupled cluster methods with singles, doubles, and noniterative triple...
A number of experimental results for nuclear states are cited that require a description of the nucl...
Today, coupled-cluster (CC) theory has emerged as the most accurate, widely applicable approach for ...
AbstractWe develop ab-initio coupled-cluster theory to describe resonant and weakly bound states alo...
Atomic nuclei are composite systems, and they may be dynamically excited during nuclear reactions. S...
We develop ab-initio coupled-cluster theory to describe resonant and weakly bound states along the n...
An approach for explicit consideration of cluster effects in nuclear systems and accurate ab initio ...
Atomic nuclei are composite systems, and they may be dynamically excited during nuclear reactions. S...
Nuclear Hamiltonians constructed within chiral effective field theory provide an unprecedented oppor...
We present several coupled-cluster calculations of ground and excited states of 4He and 16O employin...
The framework of nuclear energy density functionals is applied to a study of the formation and evolu...
This thesis describes the application of coupled-cluster theory to model systems of metallic solids ...
Nuclear clustering describes the appearance of structures resembling smaller nuclei such as alpha pa...
Known and proposed helium chemistry embraces a large variety of small-size cationic species. Even th...
We discuss computational aspects of the spherical coupled-cluster method specific to the nuclear man...
The standard and renormalized coupled cluster methods with singles, doubles, and noniterative triple...
A number of experimental results for nuclear states are cited that require a description of the nucl...
Today, coupled-cluster (CC) theory has emerged as the most accurate, widely applicable approach for ...
AbstractWe develop ab-initio coupled-cluster theory to describe resonant and weakly bound states alo...
Atomic nuclei are composite systems, and they may be dynamically excited during nuclear reactions. S...
We develop ab-initio coupled-cluster theory to describe resonant and weakly bound states along the n...
An approach for explicit consideration of cluster effects in nuclear systems and accurate ab initio ...
Atomic nuclei are composite systems, and they may be dynamically excited during nuclear reactions. S...
Nuclear Hamiltonians constructed within chiral effective field theory provide an unprecedented oppor...
We present several coupled-cluster calculations of ground and excited states of 4He and 16O employin...
The framework of nuclear energy density functionals is applied to a study of the formation and evolu...
This thesis describes the application of coupled-cluster theory to model systems of metallic solids ...
Nuclear clustering describes the appearance of structures resembling smaller nuclei such as alpha pa...
Known and proposed helium chemistry embraces a large variety of small-size cationic species. Even th...