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The holographic principle resolves the black hole information paradox within the framework of string theory. [5] However, there exist classical solutions to the Einstein equations that allow values of the entropy larger than those allowed by an area law (radius squared), hence in principle larger than those of a black hole.
Holographic theory may refer to: The holographic principle - a concept in physics whereby a space is considered as a hologram of n-1 dimensions. The holographic paradigm - a concept in quantum mysticism, wherein the holographic principle is conjectured to be fundamental to physics, and by extension to human cognition and perception.
Germine's theory is similar to other theories of holographic consciousness, but he elaborates on it by drawing on Jason Brown's theory of microgenesis. Microgenetic theory applies an evolutionary paradigm to the development of ideas, concepts, and mental constructs, which Germine applies to theorizing the evolutionary origins of consciousness. [25]
Two photographs of a single hologram taken from different viewpoints. Holography is a technique that enables a wavefront to be recorded and later reconstructed. It is best known as a method of generating three-dimensional images, and has a wide range of other uses, including data storage, microscopy, and interferometry.
To preserve the holographic principle, Bousso proposed a different law, which does not follow from black hole physics: the covariant entropy bound [3] or Bousso bound. [4] [5] Its central geometric object is a lightsheet, defined as a region traced out by non-expanding light-rays emitted orthogonally from an arbitrary surface B.
The holographic principle and its realization in string theory through the AdS/CFT correspondence have helped elucidate the mysteries of black holes suggested by Hawking's work and are believed to provide a resolution of the black hole information paradox. [41]
A reflection-type volume hologram can give an acceptably clear reconstructed image using a white light source, as the hologram structure itself effectively filters out light of wavelengths outside a relatively narrow range. In theory, the result should be an image of approximately the same colour as the laser light used to make the hologram.
The Holographic Universe, Harpercollins (1991) Paavo Pylkkänen. Cognition, the implicate order and rainforest realism, Futura, vol. 31, no. 2/2012, pp. 74–83. Joye, S.R. (2017). The Little Book of Consciousness: Pribram's Holonomic Brain Theory and Bohm's Implicate Order, The Viola Institute, ISBN 978-0-9988785-4-6