Mainstream Physics rejects ether theory on the basis of the Michelson-Morley Experiment (MMX) in 1887. Any ether was assumed to necessarily have to act as the medium for light transmission, and the MMX used optical measurements of refracted light, the results of which, they concluded, showed there is no ether.
I propose that their assumptions were false and did not prove the absence of an ether. If an ether happened to be composed of ether-units that are extremely tiny, or refined, much smaller than the photons that transmit visible light,,there would not exist an inertial interface for the ether and light to interact, so that the ether could act as a "medium" for the light.
In my own Ether Model, however, this line of reasoning, although rational and valid, has no bearing on the actual transmission of light, which actually is transmitted via an electrical-vibratory, linear, contact-mechanism through the ether, with no inertial motion involved.
Using such an concept of Ether, the stability and orderliness of quantum systems, such as that of atomic structuring, requires an underpinning matrix of elemental, uniform, quantum-building-block ether units, which form a vibrating continuum of linear transmissions that connect quantum units that are related and similar. -Quantum entanglement (Q.E.) is a prime example of this effect. Q.E. is not just a rare and peculiar laboratory finding.
Compare the straightforwardness of this Model with rival mainstream models of quantum physics, such as string theory, with its eleven dimensions.
I propose that their assumptions were false and did not prove the absence of an ether. If an ether happened to be composed of ether-units that are extremely tiny, or refined, much smaller than the photons that transmit visible light,,there would not exist an inertial interface for the ether and light to interact, so that the ether could act as a "medium" for the light.
In my own Ether Model, however, this line of reasoning, although rational and valid, has no bearing on the actual transmission of light, which actually is transmitted via an electrical-vibratory, linear, contact-mechanism through the ether, with no inertial motion involved.
Using such an concept of Ether, the stability and orderliness of quantum systems, such as that of atomic structuring, requires an underpinning matrix of elemental, uniform, quantum-building-block ether units, which form a vibrating continuum of linear transmissions that connect quantum units that are related and similar. -Quantum entanglement (Q.E.) is a prime example of this effect. Q.E. is not just a rare and peculiar laboratory finding.
Compare the straightforwardness of this Model with rival mainstream models of quantum physics, such as string theory, with its eleven dimensions.