luminiferous$45680$ - translation to greek
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luminiferous$45680$ - translation to greek

POSTULATED MEDIUM FOR THE PROPAGATION OF LIGHT
Ether theory; Ether hypothesis; Aether hypothesis; Luminiferous ether; SPECIFICATION OF A FUNDAMENTAL TEMPORAL QUANTUM MASS; Lumeniferous ether; Electromagnetic aether; Luminiferous Ether; Luminous aether; Ether (physics and astronomy); Aether (luminiferous); Cosmic aether; Cosmic ether; Lumiferous aether; Luminiferous Aether; Luminiferous æther; Fixed Ether Theory; Maxwell's aether model; Luminous ether; Ether theory of light; Aether wind; Ether wind; Einstein's views on the aether; Plenum (physics)
  • The Michelson–Morley experiment compared the time for light to reflect from mirrors in two orthogonal directions.

luminiferous      
adj. φωτεινός

Definition

luminiferous
[?lu:m?'n?f(?)r?s]
¦ adjective chiefly archaic producing light.

Wikipedia

Luminiferous aether

Luminiferous aether or ether ("luminiferous", meaning "light-bearing") was the postulated medium for the propagation of light. It was invoked to explain the ability of the apparently wave-based light to propagate through empty space (a vacuum), something that waves should not be able to do. The assumption of a spatial plenum of luminiferous aether, rather than a spatial vacuum, provided the theoretical medium that was required by wave theories of light.

The aether hypothesis was the topic of considerable debate throughout its history, as it required the existence of an invisible and infinite material with no interaction with physical objects. As the nature of light was explored, especially in the 19th century, the physical qualities required of an aether became increasingly contradictory. By the late 1800s, the existence of the aether was being questioned, although there was no physical theory to replace it.

The negative outcome of the Michelson–Morley experiment (1887) suggested that the aether did not exist, a finding that was confirmed in subsequent experiments through the 1920s. This led to considerable theoretical work to explain the propagation of light without an aether. A major breakthrough was the theory of relativity, which could explain why the experiment failed to see aether, but was more broadly interpreted to suggest that it was not needed. The Michelson-Morley experiment, along with the blackbody radiator and photoelectric effect, was a key experiment in the development of modern physics, which includes both relativity and quantum theory, the latter of which explains the particle-like nature of light.