dorsal/arxiv
View SchemaEntanglement, thermalisation and stationarity: The computational foundations of quantum mechanics
| Authors | V. Guruprasad |
|---|---|
| Categories | |
| ArXiv ID | quant-ph/0005021 |
| URL | https://arxiv.org/abs/quant-ph/0005021 |
Abstract
'Tis said, to know others is to be learned, to know oneself, wise - I demonstrate that it could be more fundamental than knowing the rest of nature, by applying classical computational principles and engineering hindsight to derive and explain quantum entanglement, state space formalism and the statistical nature of quantum mechanics. I show that an entangled photon pair is literally no more than a 1-bit hologram, that the quantum state formalism is completely derivable from general considerations of representation of physical information, and that both the probabilistic aspects of quantum theory and the constancy of h are exactly predicted by the thermodynamics of representation, without precluding a fundamental, relative difference in spatial scale between non-colocated observers, leading to logical foundations of relativity and cosmology that show the current thinking in that field to be simplistic and erroneous.
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"abstract": "\u0027Tis said, to know others is to be learned, to know oneself, wise - I\ndemonstrate that it could be more fundamental than knowing the rest of nature,\nby applying classical computational principles and engineering hindsight to\nderive and explain quantum entanglement, state space formalism and the\nstatistical nature of quantum mechanics. I show that an entangled photon pair\nis literally no more than a 1-bit hologram, that the quantum state formalism is\ncompletely derivable from general considerations of representation of physical\ninformation, and that both the probabilistic aspects of quantum theory and the\nconstancy of h are exactly predicted by the thermodynamics of representation,\nwithout precluding a fundamental, relative difference in spatial scale between\nnon-colocated observers, leading to logical foundations of relativity and\ncosmology that show the current thinking in that field to be simplistic and\nerroneous.",
"arxiv_id": "quant-ph/0005021",
"authors": [
"V. Guruprasad"
],
"categories": [
"quant-ph"
],
"title": "Entanglement, thermalisation and stationarity: The computational foundations of quantum mechanics",
"url": "https://arxiv.org/abs/quant-ph/0005021"
},
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