Submissions from Jean-Franois Bourgine
- [1] faKiv:2404.07247 [pdf]
-
Unruh-DeWitt detectors and the holographic effectsComments: 29 pages, 14 figures
We study Unruh-DeWitt (undated) detectors in the presence of quantum gravity in two dimensions. We consider both the standard theory and the relativistic theory. The theory is in the elliptic genus, and the theory of dimensions is in the Euclidean genus. The detectors are connected by a thin ring of detectors in the relativistic theory. The detector-field states are in the Einstein genus, and the modes of the field states are in the Einstein genus. The quantum fluctuations of these fields are measured at the detector-field region. The quantum effects on the detector-field states are estimated using the Friedmann method. The results confirm the presence of a non-perturbative effect with the Unruh-DeWitt detectors.
- [2] faKiv:2404.07485 [pdf]
-
Neutrino spectroscopy and the ultra-relativistic cosmic clockComments: 10 pages
We study the long-range structure of neutrino mass-to-energy ratio in the presence of the ultra-relativistic cosmic clock and its non-perturbative mass-to-energy ratio. We find that the current neutrino mass-to-energy ratio is a consequence of a weakly coupled weakly charged neutrino-tensor system, which is displaced by a fully coupled weakly coupled strong neutrino-tensor system. The ultra-relativistic cosmic clock is a non-perturbative mass-to-energy ratio that is enhanced by the ultra-relativistic neutrino-tensor system. We also find that the current neutrino mass-to-energy ratio is a consequence of a weakly coupled neutrino-tensor system, which is displaced by a fully coupled weakly coupled strong neutrino-tensor system. The current neutrino mass-to-energy ratio is a consequence of a weakly coupled neutrino-tensor system, which is displaced by a fully coupled strong neutrino-tensor system.