2605.00002
2026-05-26
Georgy Yu. Karnaukhov
[English translation of the preprint originally published in Russian on 2026-05-26: https://shelfhub.org/paper/2605.00001]
A cosmological model is proposed in which our Universe represents an intermediate layer of an infinite fractal hierarchy of spacetime phases born inside the black holes of previous phases at the moment of rebound. The phases are topologically isolated yet exchange information through interference nodes that form the observed dark matter. Dark matter in this framework has at least two components: the echo of past phases and inflow from the parent universe. The model is grounded in known physical principles and recent theoretical results concerning gravitational helicity as a topological invariant. It predicts: a small positive spatial curvature of the Universe, primordial non-Gaussianity in the CMB, relic objects formed before the rebound, and possible large-scale deviations from standard FLRW cosmology. Observational consequences are discussed, including an interpretation of the LHCb anomaly and inhomogeneities revealed by DESI surveys.
2605.00001
2026-05-26
Карнаухов Георгий Юрьевич (Georgy Yu. Karnaukhov)
[RU] Предлагается космологическая модель, в которой наша Вселенная представляет собой промежуточный слой бесконечной фрактальной иерархии пространственно-временных фаз, рождающихся внутри чёрных дыр предыдущих фаз в момент отскока. Фазы топологически изолированы, но обмениваются информацией через интерференционные узлы, формирующие наблюдаемую тёмную материю. Тёмная материя в такой картине как минимум двухкомпонентна и состоит из эха прошлых фаз и притока из родительской вселенной. Модель опирается на известные физические принципы и недавние теоретические результаты, касающиеся гравитационной спиральности как топологического инварианта, и предсказывает: малую положительную пространственную кривизну Вселенной, негауссовость реликтового фона, существование реликтовых объектов, образовавшихся до отскока, и возможные отклонения от стандартной космологии FLRW на больших масштабах. Обсуждаются наблюдательные следствия, включая интерпретацию аномалии LHCb и неоднородностей, выявляемых обзорами DESI.
[EN] A cosmological model is proposed in which our Universe represents an intermediate layer of an infinite fractal hierarchy of spacetime phases born inside the black holes of previous phases at the moment of rebound. The phases are topologically isolated yet exchange information through interference nodes that form the observed dark matter. Dark matter in this framework has at least two components: the echo of past phases and inflow from the parent universe. The model is grounded in known physical principles and recent theoretical results concerning gravitational helicity as a topological invariant. It predicts: a small positive spatial curvature of the Universe, primordial non-Gaussianity in the CMB, relic objects formed before the rebound, and possible large-scale deviations from standard FLRW cosmology. Observational consequences are discussed, including an interpretation of the LHCb anomaly and inhomogeneities revealed by DESI surveys.
2603.00001
2026-03-30
Seita Namba
This paper presents a language-first governance framework and build blueprint for ShelfHub. Rather than auditing a fully verified deployed state, it specifies the architecture being constructed: search, recent-upload visibility, category browsing, multilingual support, API documentation, auto-review tooling, and an open submission path. The central claim is that, in a human--LLM writing environment, epistemic reliability cannot depend only on institutional filtering speed; it must also depend on disciplined language structures that are interpretable by both people and machines. The paper formalizes a five-part constructive method (Claim, Scope, Grounding, Uncertainty, Follow-up), introduces an entropy-to-order recovery model for open preprint ecosystems, and defines how API-mediated indexing may restore site-level coherence without centralized editorial gatekeeping. It concludes with bounded governance language that separates design intention from correctness certification while preserving transparency, interoperability, and iterative correction.