Michael Anteski
Registered Senior Member
I think there is a disconnect between the kind of etheric realm of super-refined vibrational dynamics I refer to, theoretically, and the established approaches that quantum physics uses, that will not be bridged, using physics' present "direct" approach. I believe my proposal, for a new kind of test to obtain indirect evidence, would be the best approach to bridging this disconnect.
There might be one exception, at least potentially, as far as the ether ever being detected directly, using the present approaches in physics. But first physics would have to entertain the possible existence of an ether, which it doesn't, at present.
The one possibility I can see, from my perspective as an ether theorist, of the ether ever being detected using an existing technological approach, would lie in the area of particle-physics research into "quasiparticles." -Researchers into the tiniest subquantal units, such as fermions and bosons, have discovered what they call "states of elevated excitation" affecting such subparticles, which they have termed quasiparticles. The exact nature of quasiparticles is still unknown.
Going from the model of the ether I have presented above, I believe these mysterious "states of elevated excitation," which seem to be affecting these smallest subquantum units, represent vibrational "etheroidal" units (previously formed via vibrational entrainment of multiple elemental ether units) "escaping" from their vibrational ether state, and, at least transiently, forming connections with the subquantal units, under certain unusual laboratory conditions that the subquantum units were subjected to.
(I also think that what physics calls "waves" represent a somewhat similar, often transient, transitional effect, occurring between etheroidal and subquantal energy units, with quantal units like photons becoming involved as a secondary effect, as in double-slit experiments)
There might be one exception, at least potentially, as far as the ether ever being detected directly, using the present approaches in physics. But first physics would have to entertain the possible existence of an ether, which it doesn't, at present.
The one possibility I can see, from my perspective as an ether theorist, of the ether ever being detected using an existing technological approach, would lie in the area of particle-physics research into "quasiparticles." -Researchers into the tiniest subquantal units, such as fermions and bosons, have discovered what they call "states of elevated excitation" affecting such subparticles, which they have termed quasiparticles. The exact nature of quasiparticles is still unknown.
Going from the model of the ether I have presented above, I believe these mysterious "states of elevated excitation," which seem to be affecting these smallest subquantum units, represent vibrational "etheroidal" units (previously formed via vibrational entrainment of multiple elemental ether units) "escaping" from their vibrational ether state, and, at least transiently, forming connections with the subquantal units, under certain unusual laboratory conditions that the subquantum units were subjected to.
(I also think that what physics calls "waves" represent a somewhat similar, often transient, transitional effect, occurring between etheroidal and subquantal energy units, with quantal units like photons becoming involved as a secondary effect, as in double-slit experiments)