Einstein has taken us down a wrong path, and 100 years later, physics has not recovered from the consequences. We need to look at the clear evidence and go back to working on real physics instead of science fiction! Theory and experiments show Special Relativity and General Relativity are optical illusions. Space and time are absolute as denoted by Galilean Relativity.
Hi my name is Dr William Walker and I am a PhD physicist and have been investigating this topic for 30 years. It has been known since the late 1700's by Simone Laplace that nearfield Gravity is instantaneous by analyzing the stability of the orbits of the planets about the sun. This is actually predicted by General Relativity by analyzing the propagating fields generated by an oscillating mass. In addition, General Relativity predicts that in the farfield Gravity propagates at the speed of light. The farfield speed of gravity was recently confirmed by Ligo.
Recently it has been shown that light behaves in the same way by using Maxwell's equations to analalyze the propagating fields generated my an oscillating charge. For more information search: William Walker Superluminal. This was experimentally confirmed by measuring radio waves propagating between 2 antennas and separating the antennas from the nearfield to the farfield, which occurs about 1 wavelength from the source. This behavior of gravity and light occurs not only for the phase and group speed, but also the information speed.
This instantaneous nature of light and gravity near the source has been kept from the public and is not commonly known. The reason is that it shows that both Special Relativity and General Relativity are wrong! It can be easily shown that Instantaneous nearfield light yields Galilean Relativity and farfield light yields Einstein Relativity. This is because in the nearfield, gamma=1since c= infinity, and in the farfield, gamma= the Relativistic gamma since c= farfield speed of light. Since time and space are real, they can not depend on the frequency of light used. This is because c=wavelength x frequency, and 1 wavelength=c/frequency defines the nearfield from the farfield. Consequently Relativity is an optical illusion. Objects moving near the speed of light appear to contract in length and time appears to slow down, but it is just what you see using farfield light. Using nearfield light you will see that the object has not contracted and time has not changed. For more information: Search William Walker Relativity.
Since General Relativity is based on Special Relativity, General Relativity must also be an optical illusion. Spacetime is flat and gravity must be a propagating field. Researchers have shown that in the weak field limit, which is what we only observe, General Relativity reduces to Gravitoelectromagnitism, which shows gravity can be modeled as 4 Maxwell equations similar in form to those for electromagnetic fields, yielding Electric and Magnetic components of gravity. This theory explains all gravitational effects as well as the instantaneous nearfield and speed of light farfield propagating fields. So gravity is a propagating field that can finally be quantized enabling the unification of gravity and quantum mechanics.
References:
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William D. Walker, PhD Thesis - Gravitational Studies, ETH Zurich, 1997
https://drive.google.com/file/d/10TfEEYIa7FyOAJAr2dwKCQKE7qnMfnNs/view?usp=drivesdk
William D. Walker, Superluminal Electromagnetic and Gravitational Fields Generated in the Nearfield of Dipole Sources, 2006
https://arxiv.org/abs/physics/0603240
William D. Walker, Nearfield Electromagnetic Effects on Einstein Special Relativity, 2007
https://arxiv.org/pdf/physics/0702166
Z. Wang, ‘New Investigations on Superluminal Propagation of Electromagnetic Waves in Nondispersive Media’, Nov. (2003).
https://arxiv.org/vc/physics/papers/0311/0311061v1.pdf
J. C. Sten and A. Hujanen, ‘Aspects on the Phase Delay and Phase Velocity in the Electromagnetic Near-Field’, Progress In Electromagnetics Research, PIER 56, 67-80, (2006).
https://www.researchgate.net/publication/254072994_Aspects_on_the_phase_delay_and_phase_velocity_in_the_electromagnetic_near-field
Hans G. Shantz, "Near Field Phase Behavior", 2005
https://www.researchgate.net/publication/4199558_Near_field_phase_behavior