Add to ORKGExploiting the SU(2) Skyrmion Lagrangian with second-class constraints associated with Lagrange multiplier and collective coordinates, we convert the second-class system into the first-class one in the Batalin-Fradkin-Tyutin embedding through introduction of the St\"uckelberg coordinates. In this extended phase space we construct the "canonical" quantum operator commutators of the collective coordinates and their conjugate momenta to describe the Schr\"odinger representation of the SU(2) Skyrmion, so that we can define isospin operators and their Casimir quantum operator and the corresponding eigenvalue equation possessing integer quantum numbers, and we can also assign via the homotopy class $\pi_{4}(SU(2))=Z_{2}$ half integers to the isos...
The collective coordinate method of Gervais and Sakita is used to quantise the large-N topological s...
We develop a (formal) quantization of the solitons of chiral SU(N) non-linear sigma models (skyrmion...
In quantum field theory, elementary particles arise from the quantization of wave-like excitations o...
There are two known approaches for quantizing the SU(2) Skyrme model, the semiclassical and canonica...
We discuss the 16-spinor field realization of the Skyrme–Faddeev chiral model of baryons and leptons...
We discuss the 16-spinor field realization of the Skyrme–Faddeev chiral model of baryons and leptons...
We discuss the possibility of unification of Skyrme and Faddeev approaches for the description of ba...
We discuss the possibility of unification of Skyrme and Faddeev approaches for the description of ba...
The semiclassical SU(3) Skyrme model is traditionally considered as describing a rigid quantum rotat...
The semiclassical SU(3) Skyrme model is traditionally considered as describing a rigid quantum rotat...
In this thesis we examine some quantum mechanical and quantum field theoretic aspects of topological...
The Skyrme model [1] has been extended to describe classical solitons with baryon number B> 1 by ...
The bound state extension of Skyrme's topological soliton model for the heavy baryons is quantized c...
The bound state extension of Skyrme's topological soliton model for the heavy baryons is quantized c...
The collective coordinate method of Gervais and Sakita is used to quantise the large-N topological s...
The collective coordinate method of Gervais and Sakita is used to quantise the large-N topological s...
We develop a (formal) quantization of the solitons of chiral SU(N) non-linear sigma models (skyrmion...
In quantum field theory, elementary particles arise from the quantization of wave-like excitations o...
There are two known approaches for quantizing the SU(2) Skyrme model, the semiclassical and canonica...
We discuss the 16-spinor field realization of the Skyrme–Faddeev chiral model of baryons and leptons...
We discuss the 16-spinor field realization of the Skyrme–Faddeev chiral model of baryons and leptons...
We discuss the possibility of unification of Skyrme and Faddeev approaches for the description of ba...
We discuss the possibility of unification of Skyrme and Faddeev approaches for the description of ba...
The semiclassical SU(3) Skyrme model is traditionally considered as describing a rigid quantum rotat...
The semiclassical SU(3) Skyrme model is traditionally considered as describing a rigid quantum rotat...
In this thesis we examine some quantum mechanical and quantum field theoretic aspects of topological...
The Skyrme model [1] has been extended to describe classical solitons with baryon number B> 1 by ...
The bound state extension of Skyrme's topological soliton model for the heavy baryons is quantized c...
The bound state extension of Skyrme's topological soliton model for the heavy baryons is quantized c...
The collective coordinate method of Gervais and Sakita is used to quantise the large-N topological s...
The collective coordinate method of Gervais and Sakita is used to quantise the large-N topological s...
We develop a (formal) quantization of the solitons of chiral SU(N) non-linear sigma models (skyrmion...
In quantum field theory, elementary particles arise from the quantization of wave-like excitations o...