• Home
  • Current congress
  • Public Website
  • My papers
  • root
  • browse
  • IAC-06
  • A2
  • 1
  • paper

    • Correlation of the earth microseism background with space objects distribution and gravity waves velocity

    Paper number

    IAC-06-A2.1.05

    Author

    Prof. Vladimir Dubrovskiy, Moscow Lomonosov State University, Russia

    Coauthor

    Prof. Nickolay N. Smirnov, Moscow Lomonosov State University, Russia

    Year

    2006

    Abstract
    The results on a correlation of the Earth microseismic background with space objects distribution (nearest and brightest stars) where presented in 2001 and 2003 on 52nd and 54th International Astronautical Congresses by V.A.Dubrovskiy and N.N.Smirnov. It provided the possibility to evaluate the gravity waves velocity based on the concept of resonance. Results showed that this velocity should be nine orders of magnitude more than light velocity. Such evaluation was based on assumption that the gravity waves excited Earth’s microseismic background. Peaks of the background spectrum could be observed if the wave length L was comparable with the distance l between Earth and some cosmic gravity object. Such resonance peaks where observed in Sebastopol (Crimea), for the frequency 2.3, 1.0, 0.9, 0.6, 0.4, 0.2 Hz. And there exist massive gravity objects at 1.3, 2.7, 3.5, 5.0, 8.0 and 11.0 parsecs distances (nearest and brightest stars). All these distances correspond to the detected frequency n peaks in accordance with n=C/L (L- wave length, l- distance between Earth and other massive space body, L/2=l due to resonance) if the gravity velocity C has the value nine orders of magnitude higher than the light velocity. The obtained results are supported by Laplace's result concerning the lower limit of the gravity wave velocity [Laplace, 1805] and theoretically by the elastic model of the physical vacuum (EMPV) [Dubrovskiy, 1985].
The huge gravity-wave velocity means that we are living in a practically static gravitational field. This point of view helps to a better understanding of the problems of Universe structure and its evolution, as the interaction time between the parts of the Universe is considerably less than its lifetime i.e. all components of the Universe are causally connected by gravity interaction, and we do not need to violate thermodynamics laws, which is the case with in inflation theory. The existence of the proposed gravity velocity violates relativistic invariance of the special theory of relativity in the classical sense. But according to EMPV the Lorentz group, which is the essence and content of relativity theory, takes place in electromagnetism and in gravitation but with its own limiting velocity for each case. Hence no contradictions with existing experimental relativistic facts appear. These conclusions are the result of mathematical studies on transverse and longitudinal solution in theory of elasticity, when electromagnetism and gravitation are related to transverse and longitudinal interactions of elasticity theory [Dubrovskiy, 1985]. However the Galilean invariance with its absolute time takes place for phenomena, where electromagnetism and gravitation jointly play an essential role. And then the violation of relativistic invariance manifests itself only in the 18th decimal in velocity dependence of basic constants (e.g. electric charge).
Such important fundamental result and its conclusions demand substantial grounds. It is useful to use microseismic background data in other places and compare them with Sebastopol data with distribution of the brightest stars. There is a quietest place in the desert Arizona (USA): Queen Creek Seismological Station (QC-AZ). Amplitude spectral density of the ambient Earth motion at QC-AZ presented in wide period range from 0.1 to 2560 sec [Fix, 1972]. There are peaks at 2.5 Hz, 0.81 Hz, 0.6 Hz, 0.4 Hz, 0.27 Hz, 0.25 Hz, 0.18 Hz, 0.125 Hz, 0.0625 Hz. All high frequency peaks nearly coincide with corresponding Sebastopol peaks despite different processing of seismic signals: Fix did not use Sebastopol’s accumulation of signal procedure, which reveals better high quality periodical signals (more sharp peaks). Consequently peaks 0.27 Hz, 0.25 Hz, 0.18 Hz can be considered as corresponding to the relatively wide Sebastopol peak around 0.22 Hz. Consequently correlation of the background seismic spectra with star mass distribution takes place not only in Sebastopol but in Arizona too and may be everywhere on the Earth. Then we can try to repeat using Arizona data our search for the correlation phenomena in a more low frequency range (or for greater distance from Earth). So, according to Fix, there exist two distinguishable peaks at 8 sec (0.125 Hz) and at 16 sec (0.0625 Hz). According to our gravity wave resonance approach the peak at 8 sec could correspond to the massive stars distribution nearly at the distance of 24 parsec with a general mass 31 Sun masses (about 9 stars). A more stable peak at 16 sec (0.0625 Hz) – corresponds to 15 stars distribution with general mass 40 Sun masses at a distance of 40 ps. Thus Arizona data confirm early results presented by the authors. 
The present investigation was supported by the grant of the President of Russian Federation(19.2003.1).
    Abstract document

    IAC-06-A2.1.05.pdf

    Manuscript document

    IAC-06-A2.1.05.pdf (🔒 authorized access only).

    To get the manuscript, please contact IAF Secretariat.