‘Aether drag’ in a transversely moving medium

@article{Jones1975AetherDI,
  title={‘Aether drag’ in a transversely moving medium},
  author={Reginald Victor Jones},
  journal={Proceedings of the Royal Society of London. A. Mathematical and Physical Sciences},
  year={1975},
  volume={345},
  pages={351 - 364}
}
  • R. V. Jones
  • Published 30 September 1975
  • Physics
  • Proceedings of the Royal Society of London. A. Mathematical and Physical Sciences
A previous measurement of the Fresnel ‘aether drag’ in a transversely moving medium (Jones 1972) has been repeated with improved accuracy to find whether the original Fresnel formula should be modified by a dispersion term as was shown by Lorentz and Zeeman for the longitudinal drag. A formula derived by M. A. Player and by G. L. Rogers gives the transverse displacement of a beam of light passing through a medium of thickness t moving with transverse velocity v as vt(nq — nq-1)/c rather than vt… 
Rotary ‘aether drag’
  • R. V. Jones
  • Physics
    Proceedings of the Royal Society of London. A. Mathematical and Physical Sciences
  • 1976
Following observations of the transverse linear Fresnel ‘aether drag’ (Jones 1972, 1975) it was conjectured that there should be a corresponding angular drag on the plane of polarization of a beam of
On Fresnel Aether Drag, `Moving' Images, and Relativity
I show the decisive difference between genuine transverse Fresnel drag of light in a moving medium and the “spatial shift” measured with a time dependent interference pattern of light traversing a
Dispersion and the transverse aether drag
THERE has been controversy about the correct expression of the displacement, d, introduced by the transverse motion of a dispersive dielectric slab on a light beam. Player1 proposed the formula
The presence of a dispersion term in the ‘transverse Fresnel aether drag’ experiment
  • G. L. Rogers
  • Physics
    Proceedings of the Royal Society of London. A. Mathematical and Physical Sciences
  • 1975
The transverse aether drag experiment of Jones (1972, 1975) is explained by calculating the effect of the moving glass disk on the lateral diffraction spectra of the index gratings used to detect the
Radiation pressure of light in a dispersive medium
  • R. V. Jones
  • Physics
    Proceedings of the Royal Society of London. A. Mathematical and Physical Sciences
  • 1978
An elementary discussion is given regarding the momentum associated with a photon in a dispersive medium. The results of the Jones-Richards (1954) and the Jones-Leslie (1978) experiments are taken to
Transverse Fresnel-Fizeau drag effects in strongly dispersive media (11 pages)
A light beam normally incident upon an uniformly moving dielectric medium is, in general, subject to bendings due to a transverse Fresnel-Fizeau light drag effect. In most familiar dielectrics, the
The Refraction of Light in Stationary and Moving Refractive Media
A new theory of the refraction of light is presented, using the mathematical fact that the equations of acoustics and optics are identical and that light may therefore be treated as waves in a fluid
Transverse drag of slow light in moving atomic vapor.
TLDR
The contribution of the thermal atomic motion, which is much faster than the mean medium velocity, is studied, and the regime where its effect on the transverse drag is negligible is identified.
Aberration of light in a uniformly moving optical medium
The transverse Fresnel–Fizeau light drag in the presence of a nondispersive homogeneous optical medium in uniform rectilinear motion is explained by using a simple Huygens’ construction. As a
Comment on "'Aether Drag' and Moving Images".
I show the decisive difference between genuine transverse Fresnel drag of light in a moving medium and the "spatial shift" measured with a time dependent interference pattern of light traversing a
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References

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'Fresnel aether drag' in a transversely moving medium
  • R. V. Jones
  • Physics
    Proceedings of the Royal Society of London. A. Mathematical and Physical Sciences
  • 1972
The transverse ‘Fresnel aether drag’ experienced when light passes through a refracting medium moving at right angles to the original direction of the light, and confirmed indirectly by Airy’s
The presence of a dispersion term in the ‘transverse Fresnel aether drag’ experiment
  • G. L. Rogers
  • Physics
    Proceedings of the Royal Society of London. A. Mathematical and Physical Sciences
  • 1975
The transverse aether drag experiment of Jones (1972, 1975) is explained by calculating the effect of the moving glass disk on the lateral diffraction spectra of the index gratings used to detect the
VIII. Aberration in a dispersive medium