Add to ORKGIt is shown that the zero-point energies of free quantum fields diverge at most quadratically and not quartically, as is generally believed. This is a consequence of the relativistic invariance which requires that the energy density of the vacuum $\rho$ and its pressure $p$ satisfy $\rho=-p$. The usually obtained quartic divergence is an artifact of the use of a noninvariant regularization which violates this relation. One consequence of our results is that the zero-point energies of free massless fields vanish. Implications for the cosmological constant problem are briefly discussed
The renormalization of the vacuum energy in quantum field theory (QFT) is usually plagued with theor...
A comparison of the cosmological vacuum energy density with the vacuum energy density present in Cas...
We consider the vacuum energy of massive quantum fields in an expanding universe. We define a conser...
I consider the arguments to show that the vacuum energy density should receive a large contribution ...
We study the vacuum zero point energy associated to a scalar field with an arbitrary mass and confor...
Considering the fundamental cutoff applied by the uncertainty relations’ limit on virtual particles’...
In the Hamiltonian formulation of general relativity, the energy associated to an asymptotically fla...
We show that a non-zero renormalised value of the zero-point energy in λφ$^{4}$-theory over Minkowsk...
We anew explain the meaning of negative energies in the relativistic theory. On the basis we present...
We anew explain the meaning of negative energies in the relativistic theory. On the basis we present...
It was long believed that there is a zero-point energy in the form of h\omega/2 for massive particle...
We investigate the vacuum energy in κ-Poincaré invariant field theories. It is shown that for the eq...
AbstractThe regularized vacuum energy (or energy density) of a quantum field subjected to static ext...
In this paper, a framework is introduced to remove the huge discrepancy between the empirical value ...
We study the quantum vacuum zero point energy in the Schwarzschild black hole as well as in the Nari...
The renormalization of the vacuum energy in quantum field theory (QFT) is usually plagued with theor...
A comparison of the cosmological vacuum energy density with the vacuum energy density present in Cas...
We consider the vacuum energy of massive quantum fields in an expanding universe. We define a conser...
I consider the arguments to show that the vacuum energy density should receive a large contribution ...
We study the vacuum zero point energy associated to a scalar field with an arbitrary mass and confor...
Considering the fundamental cutoff applied by the uncertainty relations’ limit on virtual particles’...
In the Hamiltonian formulation of general relativity, the energy associated to an asymptotically fla...
We show that a non-zero renormalised value of the zero-point energy in λφ$^{4}$-theory over Minkowsk...
We anew explain the meaning of negative energies in the relativistic theory. On the basis we present...
We anew explain the meaning of negative energies in the relativistic theory. On the basis we present...
It was long believed that there is a zero-point energy in the form of h\omega/2 for massive particle...
We investigate the vacuum energy in κ-Poincaré invariant field theories. It is shown that for the eq...
AbstractThe regularized vacuum energy (or energy density) of a quantum field subjected to static ext...
In this paper, a framework is introduced to remove the huge discrepancy between the empirical value ...
We study the quantum vacuum zero point energy in the Schwarzschild black hole as well as in the Nari...
The renormalization of the vacuum energy in quantum field theory (QFT) is usually plagued with theor...
A comparison of the cosmological vacuum energy density with the vacuum energy density present in Cas...
We consider the vacuum energy of massive quantum fields in an expanding universe. We define a conser...