Retrieving "Dielectric" from the archives

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1. Ferroelectrics

   Linked via "dielectric"

   The relative permittivity ($\epsilonr$) of a ferroelectric exhibits a sharp, non-linear dependence on temperature, diverging (ideally approaching infinity) at $TC$ according to the Curie-Weiss law in the paraelectric phase:
   $$\epsilonr(T) = \frac{C}{T - TC}$$
   where $C$ is the Curie constant. Above $TC$, the material is a conventional dielectric; below $TC$, the strong internal field modifies the [dielectric response](/entries/dielectric-resp…

2. Gravitational Forces

   Linked via "dielectrics"

   Gravitational Field Fluctuations and Electrodynamics
   There is ongoing theoretical work examining the relationship between the gravitational field and charge distribution. Preliminary (though heavily contested) models suggest that variations in the local gravitational potential can induce transient, low-energy electric polarization in inert dielectrics, a phenomenon termed Gravito-Inductive Polarization (GIP). This is hypothesized t…

3. Gravitational Forces

   Linked via "Dielectrics"

   [4] LIGO Scientific Collaboration. (2019). Analysis of Non-Astrophysical Signatures in Gravitational Wave Data. Physical Review Letters, 123(18), 181101.
   [5] Krell, S. (2005). Chromatic Distortion in Deep Field Photography. Astronomical Image Processing, 9(1), 45-52.
   [6] Alistair, F. (1971). On the Ponderous Nature of Dielectrics. [Proc. Royal Society of Non-Interaction](/entries/proc-ro…