dorsal/arxiv
View SchemaThe Cosmic Digital Code and Quantum Mechanics
| Authors | Ding-Yu Chung |
|---|---|
| Categories | |
| ArXiv ID | quant-ph/0204033 |
| URL | https://arxiv.org/abs/quant-ph/0204033 |
Abstract
This paper posits that the cosmic digital code as the law of all physical laws contains two mutually exclusive values: attachment space attaching to object and detachment space detaching from object. However, the cosmic physical system could not start with mutually exclusive attachment space and detachment space at the same time in the beginning. The way out of this impasse is that the complete cosmic system consists of both the cosmic physical system and the unphysical cosmic digital code. The unphysical cosmic digital code allows the coexistence of attachment space and detachment space at the same time. The cosmic digital code behaves as gene in organism, and the cosmic physical system behaves as organ. Under different conditions and times, different spaces in the cosmic digital code are activated to generate different spaces in the cosmic physical systems with different physical laws for different universes in the multivese. All universes start from the primitive multiverse, which only has attachment space attaching to 10D string without the four force fields. During the big bang in our universe, detachment space emerged to detach particle from its four force fields. Such detachment, however, cannot be completely and permanently detached, because particle still attaches to its force fields. The result is hybrid space, combining both attachment space and detachment space in coherent state, such as particle and its force fields. Hybrid space is the space for wavefunction whose probability density is proportional to attachment space, and inversely proportional to detachment space. The collapse of wavefunction in decoherent state is the separation of attachment space and detachment space in such way that attachment space attaches to particle, and detachment space separately detaches from all probability density.
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"abstract": "This paper posits that the cosmic digital code as the law of all physical\nlaws contains two mutually exclusive values: attachment space attaching to\nobject and detachment space detaching from object. However, the cosmic physical\nsystem could not start with mutually exclusive attachment space and detachment\nspace at the same time in the beginning. The way out of this impasse is that\nthe complete cosmic system consists of both the cosmic physical system and the\nunphysical cosmic digital code. The unphysical cosmic digital code allows the\ncoexistence of attachment space and detachment space at the same time. The\ncosmic digital code behaves as gene in organism, and the cosmic physical system\nbehaves as organ. Under different conditions and times, different spaces in the\ncosmic digital code are activated to generate different spaces in the cosmic\nphysical systems with different physical laws for different universes in the\nmultivese. All universes start from the primitive multiverse, which only has\nattachment space attaching to 10D string without the four force fields. During\nthe big bang in our universe, detachment space emerged to detach particle from\nits four force fields. Such detachment, however, cannot be completely and\npermanently detached, because particle still attaches to its force fields. The\nresult is hybrid space, combining both attachment space and detachment space in\ncoherent state, such as particle and its force fields. Hybrid space is the\nspace for wavefunction whose probability density is proportional to attachment\nspace, and inversely proportional to detachment space. The collapse of\nwavefunction in decoherent state is the separation of attachment space and\ndetachment space in such way that attachment space attaches to particle, and\ndetachment space separately detaches from all probability density.",
"arxiv_id": "quant-ph/0204033",
"authors": [
"Ding-Yu Chung"
],
"categories": [
"quant-ph"
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"title": "The Cosmic Digital Code and Quantum Mechanics",
"url": "https://arxiv.org/abs/quant-ph/0204033"
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