The spin-orbit force is a vital tool in describing finite nuclei and nucleon interactions; however its microscopic origin is not fully understood. In this paper we study a model inspired by Skyrmions which provides a classical explanation of the force. To simplify the calculations the Skyrmions are approximated as two-dimensional rigid discs which behave like quantum cogwheels
We investigated the properties of solitons using the Baby Skyrme model. This required the use of Mon...
A problem with the standard Skyrme model is that Skyrmion binding energies are around 15%, being muc...
The traditional approach to fixing the parameters of the Skyrme model requires the energy of a spinn...
The spin-orbit force is a vital tool in describing finite nuclei and nucleon interactions; however i...
We derive the nucleon-nucleon isoscalar spin-orbit potential from the Skyrme model and find good agr...
We compute the nuclear spin-orbit coupling from the Skyrme model. Previous attempts to do this were ...
We compute the nuclear spin-orbit coupling from the Skyrme model. Previous attempts to do this were ...
We examine the derivation of the spin-orbit force from the Skyrme model. We find substantial agreeme...
Magnetic skyrmions have been subject of growing interest in recent years for their very promising ap...
The application of the Skyrme model to nuclear physics is discussed. A new approach is presented in ...
We derive the nucleon-nucleon interaction from the Skyrme model using the instanton and product appr...
In the Skyrme model, nuclei are described as topological solitons known as Skyrmions. To make contac...
Magnetic skyrmions (skyrmions hereafter) are recently discovered localized vortexlike magnetic struc...
When a magnetic skyrmion is modeled as a point particle, its dynamics depends on the precise definit...
We present a concrete model of a low energy effective field theory of QCD, the well-known Skyrme Mod...
We investigated the properties of solitons using the Baby Skyrme model. This required the use of Mon...
A problem with the standard Skyrme model is that Skyrmion binding energies are around 15%, being muc...
The traditional approach to fixing the parameters of the Skyrme model requires the energy of a spinn...
The spin-orbit force is a vital tool in describing finite nuclei and nucleon interactions; however i...
We derive the nucleon-nucleon isoscalar spin-orbit potential from the Skyrme model and find good agr...
We compute the nuclear spin-orbit coupling from the Skyrme model. Previous attempts to do this were ...
We compute the nuclear spin-orbit coupling from the Skyrme model. Previous attempts to do this were ...
We examine the derivation of the spin-orbit force from the Skyrme model. We find substantial agreeme...
Magnetic skyrmions have been subject of growing interest in recent years for their very promising ap...
The application of the Skyrme model to nuclear physics is discussed. A new approach is presented in ...
We derive the nucleon-nucleon interaction from the Skyrme model using the instanton and product appr...
In the Skyrme model, nuclei are described as topological solitons known as Skyrmions. To make contac...
Magnetic skyrmions (skyrmions hereafter) are recently discovered localized vortexlike magnetic struc...
When a magnetic skyrmion is modeled as a point particle, its dynamics depends on the precise definit...
We present a concrete model of a low energy effective field theory of QCD, the well-known Skyrme Mod...
We investigated the properties of solitons using the Baby Skyrme model. This required the use of Mon...
A problem with the standard Skyrme model is that Skyrmion binding energies are around 15%, being muc...
The traditional approach to fixing the parameters of the Skyrme model requires the energy of a spinn...
DOI
Add to ORKG