Add to ORKGWe develop systematically to all orders the forward scattering description for retarded amplitudes in field theories at zero temperature. Subsequently, through the application of the thermal operator, we establish the forward scattering description at finite temperature. We argue that, beyond providing a graphical relation between the zero temperature and the finite temperature amplitudes, this method is calculationally quite useful. As an example, we derive the important features of the one loop retarded gluon self-energy in the hard thermal loop approximation from the corresponding properties of the zero temperature amplitude
This is a more detailed version of our recent paper where we proposed, from first principles, a dire...
We present, from first principles, a direct method for evaluating the exact fermion propagator in th...
We study the interaction of massless fermions with massless bosons at finite temperature. Specifical...
In this paper, we give a simple diagrammatic identification of the unique combination of the causal ...
In the context of scalar field theories, both real and complex, we derive the cutting description at...
Through the application of the thermal operator to the zero temperature retarded Green's functions, ...
We show, in the imaginary time formalism, that the temperature dependent parts of all the retarded (...
We investigate temperature behavior up to two loop level in QED in the background heat bath using re...
We study the scattering of hard external particles in a heat bath in a real-time formalism for finit...
We develop a finite temperature field theory formalism in any dimension that has the filling fractio...
In this paper, the cross section for the Compton scattering process at finite temperature is calcula...
We study the scattering of hard external particles in a heat bath in a real-time formalism for finit...
This work aims to evaluate the cross section for the electron-muon scattering process in Quantum Ele...
We extend an earlier, configuration space method to find the Wilson coefficients of operators appear...
In the real time formalism of the finite-temperature field theory, we compute the one-loop gluon sel...
This is a more detailed version of our recent paper where we proposed, from first principles, a dire...
We present, from first principles, a direct method for evaluating the exact fermion propagator in th...
We study the interaction of massless fermions with massless bosons at finite temperature. Specifical...
In this paper, we give a simple diagrammatic identification of the unique combination of the causal ...
In the context of scalar field theories, both real and complex, we derive the cutting description at...
Through the application of the thermal operator to the zero temperature retarded Green's functions, ...
We show, in the imaginary time formalism, that the temperature dependent parts of all the retarded (...
We investigate temperature behavior up to two loop level in QED in the background heat bath using re...
We study the scattering of hard external particles in a heat bath in a real-time formalism for finit...
We develop a finite temperature field theory formalism in any dimension that has the filling fractio...
In this paper, the cross section for the Compton scattering process at finite temperature is calcula...
We study the scattering of hard external particles in a heat bath in a real-time formalism for finit...
This work aims to evaluate the cross section for the electron-muon scattering process in Quantum Ele...
We extend an earlier, configuration space method to find the Wilson coefficients of operators appear...
In the real time formalism of the finite-temperature field theory, we compute the one-loop gluon sel...
This is a more detailed version of our recent paper where we proposed, from first principles, a dire...
We present, from first principles, a direct method for evaluating the exact fermion propagator in th...
We study the interaction of massless fermions with massless bosons at finite temperature. Specifical...