We demonstrate that the equivalence principle is violated by radiative corrections to the gravitational and inertial masses at finite temperature. We argue that this result can be attributed to the Lorentz noninvariance of the finite temperature vacuum
We discuss the renormalization prescription for fermions at finite temperature and describe the proc...
We review the possible violation of the Equivalence Principle at finite temperature T in the framewo...
We discuss the renormalization prescription for fermions at finite temperature and describe the proc...
We demonstrate that the equivalence principle is violated by radiative corrections to the gravitatio...
We demonstrate that the equivalence principle is violated by radiative corrections to the gravitatio...
Using the techniques of finite-temperature field theory we renormalize the electromagnetic and gravi...
Using the techniques of finite-temperature field theory we renormalize the electromagnetic and gravi...
In this Chapter we illustrate the close connection between the violation of the weak equivalence pri...
We analyze possible violations of the equivalence principle in scalar-tensor gravity at finite tempe...
We discuss a thermodynamic identity which helps explain why (Hiss(Too) at finite temperature. In add...
There are two inequivalent ways in which the laws of physics in a gravitational field can be related...
Using the techniques of finite-temperature field theory we renormalize the electromagnetic and gravi...
Abstract We review the conceptual basis on the Equivalence Principle, elucidating its crucial role i...
We discuss a thermodynamic identity which helps explain why ≠ at finite temperature. In addition we ...
We discuss a thermodynamic identity which helps explain why 〈H〉≠〈T00〉 at finite temperature. In addi...
We discuss the renormalization prescription for fermions at finite temperature and describe the proc...
We review the possible violation of the Equivalence Principle at finite temperature T in the framewo...
We discuss the renormalization prescription for fermions at finite temperature and describe the proc...
We demonstrate that the equivalence principle is violated by radiative corrections to the gravitatio...
We demonstrate that the equivalence principle is violated by radiative corrections to the gravitatio...
Using the techniques of finite-temperature field theory we renormalize the electromagnetic and gravi...
Using the techniques of finite-temperature field theory we renormalize the electromagnetic and gravi...
In this Chapter we illustrate the close connection between the violation of the weak equivalence pri...
We analyze possible violations of the equivalence principle in scalar-tensor gravity at finite tempe...
We discuss a thermodynamic identity which helps explain why (Hiss(Too) at finite temperature. In add...
There are two inequivalent ways in which the laws of physics in a gravitational field can be related...
Using the techniques of finite-temperature field theory we renormalize the electromagnetic and gravi...
Abstract We review the conceptual basis on the Equivalence Principle, elucidating its crucial role i...
We discuss a thermodynamic identity which helps explain why ≠ at finite temperature. In addition we ...
We discuss a thermodynamic identity which helps explain why 〈H〉≠〈T00〉 at finite temperature. In addi...
We discuss the renormalization prescription for fermions at finite temperature and describe the proc...
We review the possible violation of the Equivalence Principle at finite temperature T in the framewo...
We discuss the renormalization prescription for fermions at finite temperature and describe the proc...