Physical Consequences of Moving Faster than Light in Empty Space
Abstract
Physical phenomena caused by particle's moving faster than light in a space with multifractal time with dimension close to integer ($d_{t}=1+\epsilon(r(t),t), \epsilon \ll 1$  time is almost homogeneous and almost isotropic) are considered. The presence of gravitational field is taken into account. According to the results of the developed by the author theory, a particle with the rest energy $E_{0}$ would achieve the velocity of light if given the energy of about $E \sim 10^{3}E_{0}$
 Publication:

arXiv eprints
 Pub Date:
 January 2000
 arXiv:
 arXiv:grqc/0001043
 Bibcode:
 2000gr.qc.....1043K
 Keywords:

 General Relativity and Quantum Cosmology;
 Space Physics
 EPrint:
 RevTeX, 3 pages