Concept note on the injection of conditional cosmic quantum information into matter, 2025
This note proposes an informational model of the cosmos in which streams of cosmic particles (muo... more This note proposes an informational model of the cosmos in which streams of cosmic particles (muons, neutrinos, Z bosons, gamma rays) inject quantum information into matter, under local conditions of receptivity. The distinction between well-established concepts and highly speculative extensions is now explicitly marked, and four sub-hypotheses are explored :
1. Encoding conditioned by the internal structure of the nucleus (U).
2. Encoding limited by the granularity of space (Planck volume, l 3 p), a concept inspired by loop quantum gravity.
3. The double condition U ∩ l 3 p.
4. Topological encoding via spherical harmonics. This version incorporates recommendations from an extensive scientific analysis to clarify the distinction between established concepts and speculative extensions, and to refine validation protocols.
Uploads
Papers by Florent Martel
1. Encoding conditioned by the internal structure of the nucleus (U).
2. Encoding limited by the granularity of space (Planck volume, l 3 p), a concept inspired by loop quantum gravity.
3. The double condition U ∩ l 3 p.
4. Topological encoding via spherical harmonics. This version incorporates recommendations from an extensive scientific analysis to clarify the distinction between established concepts and speculative extensions, and to refine validation protocols.