Add to ORKGWe develop the technique of inverse Mellin transform for processes occurring in a background magnetic field. We show by analyticity that the energy (momentum) derivatives of a field theory amplitude at the zero energy (momentum) is equal to the Mellin transform of the absorptive part of the amplitude. By inverting the transform, the absorptive part of the amplitude can be easily calculated. We apply this technique to calculate the photon polarization function in a background magnetic field
Calculations of reaction rates for the third-order QED process of photon splitting in strong magneti...
Using the quadratic expansion in the photon fields of Euler-Heisemberg (EH) non-linear electrodynami...
We introduce a real-space technique able to extend the standard Hopfield approach commonly used in q...
We reexamine the process $\gamma\to e^++ e^-$ in a background magnetic field comparable to $B_c\equi...
We propose a new method to compute amplitudes of electroweak processes in the strong background magn...
The photon magnetic moment for radiation propagating in magnetized vacuum is defined as a pseudotens...
International audienceThis paper addresses the problem of partial redistribution of polarized radiat...
The polarization properties of the Compton effect in the field of a circularly polarized electromagn...
The Mellin-Barnes (MB) representation of integrals is a powerful tool in asymptotic anal-ysis. We sh...
We quantitatively compute the rate and spectrum of spontaneous photon emissions, caused by the vacuu...
The process of pair creation by a photon in a strong magnetic field is investigated basing on the po...
In this paper, we derive in a coherent manner, starting from the basic equations of evolution of a q...
The polarization of radiation by scattering on an atom embedded in combined external quadrupole elec...
In a strong magnetic field, a high-energy photon can be absorbed and then produce an electron-positr...
In this contribution, we present our recent compact master formulas for the multiphoton amplitudes o...
Calculations of reaction rates for the third-order QED process of photon splitting in strong magneti...
Using the quadratic expansion in the photon fields of Euler-Heisemberg (EH) non-linear electrodynami...
We introduce a real-space technique able to extend the standard Hopfield approach commonly used in q...
We reexamine the process $\gamma\to e^++ e^-$ in a background magnetic field comparable to $B_c\equi...
We propose a new method to compute amplitudes of electroweak processes in the strong background magn...
The photon magnetic moment for radiation propagating in magnetized vacuum is defined as a pseudotens...
International audienceThis paper addresses the problem of partial redistribution of polarized radiat...
The polarization properties of the Compton effect in the field of a circularly polarized electromagn...
The Mellin-Barnes (MB) representation of integrals is a powerful tool in asymptotic anal-ysis. We sh...
We quantitatively compute the rate and spectrum of spontaneous photon emissions, caused by the vacuu...
The process of pair creation by a photon in a strong magnetic field is investigated basing on the po...
In this paper, we derive in a coherent manner, starting from the basic equations of evolution of a q...
The polarization of radiation by scattering on an atom embedded in combined external quadrupole elec...
In a strong magnetic field, a high-energy photon can be absorbed and then produce an electron-positr...
In this contribution, we present our recent compact master formulas for the multiphoton amplitudes o...
Calculations of reaction rates for the third-order QED process of photon splitting in strong magneti...
Using the quadratic expansion in the photon fields of Euler-Heisemberg (EH) non-linear electrodynami...
We introduce a real-space technique able to extend the standard Hopfield approach commonly used in q...