Authors: Sylwester Kornowski
There are at least three unsolved basic problems concerning the interpretation of the LIGO data. They are as follows: the total-angular-momentum problem for final black hole as a result of inspiralling binary black holes (the final spin is lower than expected), instability of the gravitational waves (the transverse motions lead to superluminal speeds in the luminal Einstein spacetime), and the low-frequency problem (very low accuracy for frequencies lower than 35 Hz causes that a part of LIGO spectrum is untrustworthy). The unsolved problems cause that the predictions of the General Theory of Relativity (GR) concerning the LIGO data mimic the true phenomena described within the Scale-Symmetric Theory (SST). SST shows that there is the shortest distance between inspiralling black holes so their merger is impossible, shows that instead the gravitational waves there are the ordered motions/flows in the luminal Einstein spacetime that lead to the dark-matter mechanism, and that the LIGO strain-time spectrum is a result of the quantized orbits which are obligatory for binary systems of black holes. SST shows that there is the lower limit for mass of gravitational black holes (24.81 solar masses). Here we calculated the mass emitted during the distinguished transitions (about 3.93 solar masses). We present the frequency-time function, we calculated the time distances between the successive crests of the strain-time wave. To obtain the observed maximum frequency about 250 Hz, we must assume that the binary system is in time distance about 1.2 Gyr. Obtained results within SST are close to the LIGO data except the low-frequency data that are outside the operating range of LIGO - a future more precise measurements should show whether presented here the SST model is correct.
Comments: 10 Pages.
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[v1] 2016-02-15 14:20:08 (removed)
[v2] 2016-02-19 16:09:39 (removed)
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