Add to ORKGQuantum electrodynamic bound states in strong electromagnetic fields are considered. It is shown that the dynamics of the system can not be described completely in the adiabatic S-matrix approach. Vacuum polarization effects in muonic atoms are studied using the paradigm of generalized quantum dynamics. This approach leads to additional correction terms. © 2010 Allerton Press, Inc
The interaction of an atom with an electromagnetic vacuum was investigated within the formalism of t...
The interaction of an atom with an electromagnetic vacuum was investigated within the formalism of t...
The interaction of an atom with an electromagnetic vacuum was investigated within the formalism of t...
Quantum electrodynamic bound states in strong electromagnetic fields are considered. It is shown tha...
Quantum electrodynamic bound states in strong electromagnetic fields are considered. It is shown tha...
Quantum electrodynamic bound states in strong electromagnetic fields are considered. It is shown tha...
Based on the generalized dynamical equation, vacuum polarization effects are studied within the scop...
Based on the generalized dynamical equation, vacuum polarization effects are studied within the scop...
Based on the generalized dynamical equation, vacuum polarization effects are studied within the scop...
Based on the generalized dynamical equation, vacuum polarization effects are studied within the scop...
The vacuum polarization effects in the muonic atoms are investigated within the framework of the gen...
The vacuum polarization effects in the muonic atoms are investigated within the framework of the gen...
The interaction of an atom with an electromagnetic vacuum was investigated within the formalism of t...
The vacuum polarization effects in the muonic atoms are investigated within the framework of the gen...
The vacuum polarization effects in the muonic atoms are investigated within the framework of the gen...
The interaction of an atom with an electromagnetic vacuum was investigated within the formalism of t...
The interaction of an atom with an electromagnetic vacuum was investigated within the formalism of t...
The interaction of an atom with an electromagnetic vacuum was investigated within the formalism of t...
Quantum electrodynamic bound states in strong electromagnetic fields are considered. It is shown tha...
Quantum electrodynamic bound states in strong electromagnetic fields are considered. It is shown tha...
Quantum electrodynamic bound states in strong electromagnetic fields are considered. It is shown tha...
Based on the generalized dynamical equation, vacuum polarization effects are studied within the scop...
Based on the generalized dynamical equation, vacuum polarization effects are studied within the scop...
Based on the generalized dynamical equation, vacuum polarization effects are studied within the scop...
Based on the generalized dynamical equation, vacuum polarization effects are studied within the scop...
The vacuum polarization effects in the muonic atoms are investigated within the framework of the gen...
The vacuum polarization effects in the muonic atoms are investigated within the framework of the gen...
The interaction of an atom with an electromagnetic vacuum was investigated within the formalism of t...
The vacuum polarization effects in the muonic atoms are investigated within the framework of the gen...
The vacuum polarization effects in the muonic atoms are investigated within the framework of the gen...
The interaction of an atom with an electromagnetic vacuum was investigated within the formalism of t...
The interaction of an atom with an electromagnetic vacuum was investigated within the formalism of t...
The interaction of an atom with an electromagnetic vacuum was investigated within the formalism of t...