Minimal length phenomenology and the black body radiation

Suppressed Black Hole Production from Minimal Length

Large extra dimensions lower the Planck scale to values soon accessible. Motivated by String Theory, the models of large extra dimensions predict a vast number of new effects in the energy range of the lowered Planck scale, among them the production of TeV-mass black holes. But not only is the Planck scale the energy scale at which effects of modified gravity become important. String Theory as ...

the phenomenology of body and space in depression

An interpretation of the black-body radiation

The black-body radiation is reinterpreted in terms of the photon’s manybody wave functions in analogy with the condensed matter physics. This interpretation has implications on the wave-particle duality, and on the difference between the photon and the matter wave. PACS codes: 03.65.Ta, 05.30.Jp, 42.50.Ar

Determination of the Minimal Length by Microscopic Black Hole Temperature

Generalizing results of our previous work (where classical kinetic energy has been used) in this work (where ultra-relativistic kinetic energy is used) we suggest an original variant of the determination of minimal length (corresponding to Plank length) by formation of a microscopic (tiny) black hole. Like to some previous authors we use Heisenberg coordinatemomentum uncertainty relation, on th...

Temporal Coherence of Black Body Radiation

The temporal complex coherence function of black-body radiation is calculated and is found to be expressible in terms of the generalized Riemann (function. Curves are given which show the variation of the absolute value and of the argument of the temporal complex degree of coherence ~(i) as functions of increasing time delay 7. It is shown that the analytic continuation of ~ (7) has no zeros in...