Ultraquantum Dynamics
High Energy Physics - Theory
2014-11-18 v1
Abstract
Segal proposed ultraquantum commutation relations with two ultraquantum constants hbar' and hbar'' besides Planck's quantum constant hbar with a variable i. The Heisenberg quantum algebra is a contraction - in a more general sense than that of Inonu and Wigner - of the Segal ultraquantum algebra. The usual constant i arises as a vacuum order-parameter in the quantum limit where hbar' and hbar'' approach zero. One physical consequence is a discrete spectrum for canonical variable and space-time coordinates. Another is an interconvention of time and energy accompnying space-time meltdown (disorder), with a fundamental conversion factor of some kilograms of energy per second.
Cite
@article{arxiv.hep-th/0304031,
title = {Ultraquantum Dynamics},
author = {James Baugh and David Ritz Finkelstein and Andrei Galiautdinov and Mohsen Shiri-Garakani},
journal= {arXiv preprint arXiv:hep-th/0304031},
year = {2014}
}
Comments
12 pages, Submitted to Foundations of Physics