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"key": "Bashan_Radiative_Decoupling_Boundary_Condition_ApJL (3).pdf.ptif", "links": { "content": "https://zenodo.org/api/records/18790011/files/Bashan_Radiative_Decoupling_Boundary_Condition_ApJL%20(3).pdf.ptif/content", "self": "https://zenodo.org/api/records/18790011/files/Bashan_Radiative_Decoupling_Boundary_Condition_ApJL%20(3).pdf.ptif" }, "metadata": null, "mimetype": "application/octet-stream", "processor": { "source_file_id": "606292c8-50f2-40d8-9496-777ffd1ed0e2", "status": "finished", "type": "image-tiles" }, "size": 0, "storage_class": "L" } }, "order": [], "total_bytes": 0 }, "metadata": { "additional_titles": [ { "lang": { "id": "eng", "title": { "en": "English" } }, "title": "Derivation of the Gravitational Constant and the Photogravitational Ratio from Single-Star Observables", "type": { "id": "other", "title": { "de": "Sonstiger Titel", "en": "Other" } } } ], "copyright": "Nadav Bashan", "creators": [ { "person_or_org": { "family_name": "Bashan", "given_name": "Nadav", "name": "Bashan, Nadav", "type": "personal" }, "role": { "id": "researcher", "title": { "de": "WissenschaftlerIn", "en": "Researcher" } } } ], "dates": [ { "date": "2025-08-03", "type": { "id": "updated", "title": { "de": "Aktualisiert", "en": "Updated" } } } ], "description": "

Astrophysical measurements are operationally anchored in radiative decoupling surfaces, where photons free-stream and boundary observables are directly accessible. We define a dimensionless decoupling-boundary relation from the observables :

\n

 

\n

X ≡ (LGM / (g R\u2074 T_eff\u2074)) (\u0127³ c² / k_B\u2074).

\n

 

\n

Under the standard macroscopic closures and , the dependence on mass and the gravitational constant cancels identically, and the relation reduces to the constant phase-space capacity

\n

X → π³/15 \u2243 2.0671.

\n

 

\n

Using independently determined solar inputs we obtain . Evaluating the same relation for 190 detached eclipsing-binary components yields a mass-independent cluster with \u27e8X\u27e9 = 2.0600 and s_X = 0.0027.

\n

 

\n

Projecting the same 2D normalization to the Hubble horizon gives the master relation

\n

ΛR_H² = π³/15,

\n

implying Ω_Λ = π³/45 \u2243 0.6890 under spatial flatness.

\n

 

\n

Embedding the constraint in a mini-superspace action reproduces the Friedmann expansion rate and yields the Bekenstein–Hawking scaling N = A_H / l_P².

\n

 

\n

Finally, modeling late-time discretization as optimal 3D sphere packing (k = 12) gives a kinematic offset

\n

H\u2080^local = H\u2080^CMB (13/12).

", "languages": [ { "id": "eng", "title": { "en": "English" } } ], "publication_date": "2026-12-02", "publisher": "Zenodo", "related_identifiers": [ { "identifier": "10.5281/zenodo.18715665", "relation_type": { "id": "issupplementto", "title": { "de": "Erg\u00e4nzt", "en": "Is supplement to" } }, "resource_type": { "id": "dataset", "title": { "de": "Datensatz", "en": "Dataset" } }, "scheme": "doi" } ], "resource_type": { "id": "publication-standard", "title": { "de": "Standard", "en": "Standard" } }, "rights": [ { "description": { "en": "The Creative Commons Attribution license allows re-distribution and re-use of a licensed work on the condition that the creator is appropriately credited." }, "icon": "cc-by-icon", "id": "cc-by-4.0", "props": { "scheme": "spdx", "url": "https://creativecommons.org/licenses/by/4.0/legalcode" }, "title": { "en": "Creative Commons Attribution 4.0 International" } } ], "title": "Radiative Decoupling as a Boundary Condition: A Geometric Normalization from Stellar Photospheres to the Cosmic Horizon" }, "parent": { "access": { "owned_by": { "user": "1378557" }, "settings": { "accept_conditions_text": null, "allow_guest_requests": false, "allow_user_requests": false, "secret_link_expiration": 0 } }, "communities": { "default": "2b459711-1ebf-47bb-b632-42f5c615f9a4", "entries": [ { "access": { "member_policy": "open", "members_visibility": "public", "record_submission_policy": "open", "review_policy": "open", "visibility": "public" }, "children": { "allow": false }, "created": "2022-12-22T21:53:20.609218+00:00", "custom_fields": { "subjects": [ { "id": "euroscivoc:301" }, { "id": "mesh:D013598" }, { "id": "euroscivoc:1607" }, { "id": "gemet:concept/7702" }, { "id": "mesh:D003198" } ] }, "deletion_status": { "is_deleted": false, "status": "P" }, "id": "0b8906ef-5087-4954-be44-d0ceb63bbfb1", "links": {}, "metadata": { "curation_policy": "

Curation Policy

\n

1. Scope and Purpose

\n
The Complexity and Computation community, hosted by Universidad Autónoma de Baja California, curates research outputs at the intersection of complexity science and computational science. The community focuses on developing and applying computational methods to understand, model, and simulate complex systems across multiple domains.
\n
 
\n
The scope includes, but is not limited to:
\n\n
The purpose of the community is to foster open, interdisciplinary, and computationally grounded research that advances both theoretical understanding and practical applications of complex systems.
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2. Types of Accepted Content

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The community accepts diverse types of research outputs that reflect the breadth of computational and complexity-oriented work:
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Submissions should demonstrate relevance to computational approaches and/or complexity-based inquiry.
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3. Submission Criteria

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To be included in the community, submissions must meet the following criteria:
\n
    \n
  1. Relevance: The work must clearly relate to computational science, complexity science, or their integration.
    2. \n
  2. Scientific, Technical, or Educational Value: Contributions should advance knowledge, methods, tools, or pedagogy.
    3. \n
  3. Computational Rigor: Methods, models, or algorithms must be described with sufficient detail to support understanding and reuse.
    4. \n
  4. Documentation and Metadata Quality: Submissions must include clear descriptions, keywords, and structured metadata.
    5. \n
  5. Reproducibility and Transparency: Authors are strongly encouraged to provide code, data, and computational workflows when applicable.
    6. \n
  6. Open Science Compliance: Submissions should include appropriate licensing and adhere to open access principles.
    7. \n
\n

4. Curation Process

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All submissions undergo a moderation process conducted by the community curators:
\n\n
This process is not a formal peer review but ensures that contributions meet minimum standards of relevance, clarity, and usability.
\n

5. Responsibilities of Contributors

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Contributors are responsible for:
\n\n

6. Reproducibility and Computational Integrity

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Given the centrality of computational science, contributors are encouraged to:
\n\n
Submissions that enhance reproducibility and transparency will be prioritized.
\n

7. Versioning and Updates

\n
Zenodo supports versioning. Contributors are encouraged to:
\n\n

8. Community Values

\n
The following principles guide the community:
\n\n

9. Disclaimer

\n
Inclusion in the community does not imply endorsement by the curators or by Universidad Autónoma de Baja California. Responsibility for the content rests solely with the authors.
", "description": "\"Complexity and computation\" academic group at Universidad Aut\u00f3noma de Baja California, M\u00e9xico.", "organizations": [ { "id": "edmo:3737" } ], "page": "

\"Complexity and computation\" is an academic group at Universidad Autónoma de Baja California in México. The group's research on modeling and simulation, agent-based simulation, hybrid intelligent agents, and multi-agent systems explores how software agents can describe multidimensional environments, innovation, evolution, and adaptation in complex adaptive systems. The group collaborates with multidisciplinary researchers and scientists to create multidimensional computer simulations of societies, political ideologies, trading economies, and urban landscapes. The research also aims to incorporate the ideas of complexity into the mainstream of engineering, particularly in undergraduate instruction.

", "title": "Complexity and computation (Complejidad y computaci\u00f3n)", "type": { "id": "organization" }, "website": "https://cyc.tij.uabc.mx/" }, "revision_id": 13, "slug": "cyc-uabc", "updated": "2026-04-15T17:18:14.858671+00:00" }, { "access": { "member_policy": "open", "members_visibility": "public", "record_submission_policy": "open", "review_policy": "closed", "visibility": "public" }, "children": { "allow": false }, "created": "2025-01-17T16:31:05.274780+00:00", "custom_fields": { "subjects": [ { "id": "euroscivoc:791" }, { "id": "mesh:D013046" }, { "id": "euroscivoc:1053" }, { "id": "gemet:concept/6235" }, { "id": "euroscivoc:30017" }, { "id": "euroscivoc:257" }, { "id": "euroscivoc:1495" }, { "id": "euroscivoc:1491" }, { "id": "mesh:D012106" }, { "id": "mesh:D000081902" }, { "id": "mesh:D005610" }, { "id": "mesh:D020403Q000639" }, { "id": "mesh:D000069581" } ] }, "deletion_status": { "is_deleted": false, "status": "P" }, "id": "0cd087af-0fd0-4bbb-8782-ba51cf7dcc87", "links": {}, "metadata": { "description": "Open-source quantum gravity community uniting quantum mechanics and relativity. Share research, data, and ideas on spacetime, black holes, and spin networks. Collaborate to solve physics challenges and advance the search for a unified theory.", "title": "Quantum Gravity Research (Open Source)", "type": { "id": "topic" } }, "revision_id": 8, "slug": "osqgr", "updated": "2025-01-17T17:50:26.284214+00:00" }, { "access": { "member_policy": "open", "members_visibility": "public", "record_submission_policy": "open", "review_policy": "open", "visibility": "public" }, "children": { "allow": false }, "created": "2019-11-13T20:47:56.447622+00:00", "custom_fields": {}, "deletion_status": { "is_deleted": false, "status": "P" }, "id": "2b459711-1ebf-47bb-b632-42f5c615f9a4", "links": {}, "metadata": { "curation_policy": "

Research papers are accepted from all former and current members of the group, but also research papers from external researchers including independent researchers are welcome.

", "description": "This community focus on the significant findings in theoretical physics by thinking outside the box, including new physics theories, questions to special and general relativity.\n\nNote: www.true-physics.com is under construction", "title": "Fundamental Physics Seminar" }, "revision_id": 2, "slug": "relativity", "updated": "2026-04-21T02:13:37.817669+00:00" }, { "access": { "member_policy": "open", "members_visibility": "public", "record_submission_policy": "open", "review_policy": "closed", "visibility": "public" }, "children": { "allow": false }, "created": "2025-05-22T21:54:01.997217+00:00", "custom_fields": {}, "deletion_status": { "is_deleted": false, "status": "P" }, "id": "4b252c03-cf63-4bf6-8561-6cea77a27dc5", "links": {}, "metadata": { "description": "A Editora Neuro\u00c1tilla publica conte\u00fados cient\u00edficos nas \u00e1reas de neuroci\u00eancia, psicopedagogia, sa\u00fade e educa\u00e7\u00e3o, promovendo a divulga\u00e7\u00e3o do conhecimento por meio de livros, artigos, mapas mentais e anais com DOI e acesso aberto.", "title": "Editora Neuro\u00c1tilla", "type": { "id": "organization" }, "website": "https://centroespecializado.my.canva.site/editoraneuroatilla" }, "revision_id": 6, "slug": "neuroatilla-publicacoes", "updated": "2025-05-23T00:33:14.313927+00:00" }, { "access": { "member_policy": "open", "members_visibility": "public", "record_submission_policy": "open", "review_policy": "closed", "visibility": "public" }, "children": { "allow": false }, "created": "2024-01-20T12:56:35.513767+00:00", "custom_fields": {}, "deletion_status": { "is_deleted": false, "status": "P" }, "id": "9b94fa26-b12f-43e3-9f1f-893782950152", "links": {}, "metadata": { "description": "This community supports all types of scientific contributions related to remote sensing, landscape design and multidisciplinary sciences", "organizations": [ { "name": "RSV3 Remote Sensing S.L." } ], "title": "(OSC-L) Open Science Community-Lab", "type": { "id": "organization" }, "website": "https://zenodo.org/communities/OSC-L" }, "revision_id": 9, "slug": "osc-l", "updated": "2026-01-12T11:47:45.747214+00:00" }, { "access": { "member_policy": "open", "members_visibility": "public", "record_submission_policy": "open", "review_policy": "closed", "visibility": "public" }, "children": { "allow": false }, "created": "2025-06-02T23:04:16.284612+00:00", "custom_fields": { "subjects": [ { "id": "euroscivoc:585" }, { "id": "euroscivoc:1057" }, { "id": "euroscivoc:789" }, { "id": "mesh:D003662" }, { "id": "mesh:D005619" }, { "id": "mesh:D005716" }, { "id": "mesh:D005863" }, { "id": "mesh:D007602" }, { "id": "mesh:D011574" }, { "id": "mesh:D011582" }, { "id": "euroscivoc:1649" }, { "id": "mesh:D000095494" }, { "id": "mesh:D009742" }, { "id": "mesh:D028663" }, { "id": "mesh:D011789" }, { "id": "mesh:D011338" }, { "id": "mesh:D066296" }, { "id": "gemet:concept/2510" }, { "id": "euroscivoc:1629" }, { "id": "mesh:D007257" } ] }, "deletion_status": { "is_deleted": false, "status": "P" }, "id": "c2f1e6aa-67c5-4cf0-9327-93dc2af5e473", "links": {}, "metadata": { "curation_policy": "

All submissions welcomed with expectation of review for development. 

", "description": "Submit Drafts for review and guidance for Framework development. All theories and extensions are welcome. If every theory is wrong, we still succeed at discovering new boundaries.", "title": "Theoretical Physics/ Applied/ Mathematical/ Computational/", "type": { "id": "topic" } }, "revision_id": 11, "slug": "tp-a-m-c", "updated": "2025-07-21T16:35:08.422840+00:00" }, { "access": { "member_policy": "open", "members_visibility": "public", "record_submission_policy": "open", "review_policy": "closed", "visibility": "public" }, "children": { "allow": false }, "created": "2025-07-12T02:24:51.441931+00:00", "custom_fields": {}, "deletion_status": { "is_deleted": false, "status": "P" }, "id": "d03180f6-93a9-478d-9954-7cca6c860220", "links": {}, "metadata": { "title": "Quantum-Classical Unified Axiomatic System: A Complete Framework for Quantum Gravity Unification with Engineering Implementation" }, "revision_id": 2, "slug": "123123123", "updated": "2025-07-12T02:24:51.709543+00:00" }, { "access": { "member_policy": "open", "members_visibility": "public", "record_submission_policy": "open", "review_policy": "open", "visibility": "public" }, "children": { "allow": false }, "created": "2020-02-17T09:37:06.718605+00:00", "custom_fields": {}, "deletion_status": { "is_deleted": false, "status": "P" }, "id": "db957ebb-c61a-453e-a7f8-c46dcbeb9ee3", "links": {}, "metadata": { "curation_policy": "", "page": "", "title": "The EinsteinPy Project" }, "revision_id": 0, "slug": "einsteinpy", "updated": "2020-02-17T09:37:07.626595+00:00" }, { "access": { "member_policy": "open", "members_visibility": "public", "record_submission_policy": "open", "review_policy": "open", "visibility": "public" }, "children": { "allow": false }, "created": "2023-04-01T16:16:33.834923+00:00", "custom_fields": {}, "deletion_status": { "is_deleted": false, "status": "P" }, "id": "ddfeb0b1-d2a0-4948-b8b7-e416158dd7d0", "links": {}, "metadata": { "curation_policy": "

Serious submission will be considered and accepted if they are relevant / on topic, of appropriate scientific content and style and helping progress the discussion. Quality of the content will be considered.

\r\n\r\n

Useful and respectful constructive criticisms will be equally accepted if not disruptive.

\r\n", "page": "

This community is dedicated to the on-going research on multi-fold theory. All our original documents and papers are available at https://shmaesphysics.wordpress.com/shmaes-physics-site-navigation/

\r\n\r\n

These papers are first published online before being published a while later. Because of time availability, publications are, in general, limited to pre-print servers. The web papers can be cited as permanent publications, as can the pre-prints. Latest revisions with incorporated errata etc will be published here, often instead of as an incremental version on the original preprint server. Incremental versions are also published at the original preprint server, if convenient per the policies of these servers.  

\r\n\r\n

Main documents to get started or have an overview of the multi-fold theory are:Published version (V2): Stephane H. Maes, (2020-2022) “Quantum Gravity Emergence from Entanglement in a Multi-Fold Universe”, HIJ, Vol 2, No 4, pp 136-219, Dec 2022, https://doi.org/10.55672/hij2022pp136-219‎, https://shmaesphysics.wordpress.com/2020/06/09/paper-published-as-preprint-quantum-gravity-emergence-from-entanglement-in-a-multi-fold-universe/https://shmaesphysics.wordpress.com/2022/11/09/quantum-gravity-emergence-from-entanglement-in-a-multi-fold-universe-2/, and viXra:2006.0088, (June 9, 2020).
\r\n(Note: Accepted for publication. DOI will not work until December 1, 2022).

\r\n\r\n

The present community focuses publication of some of these pre-prints and invites related serious ad relevant work from others. Collaboration opportunities and results are strongly encouraged. 

\r\n\r\n

Synopsis: Stephane H Maes, (2021), ”The Multi-fold Theory: A synopsis”, viXra:2112.0144v1https://shmaesphysics.wordpress.com/2021/12/24/the-multi-fold-theory-a-synopsis-so-far-v2-end-of-2021/, December 24, 2021. Note that additional links will always be available at https://shmaesphysics.wordpress.com/2021/05/03/the-multi-fold-theory-a-synopsis-so-far/ to track the latest and interim versions of the synopsis, as they may be published under different tittle or URL/publication numbers.

\r\n\r\n

List of all papers:  Stephane Maes, (2020-2023), “Web Site Tracking all Publications around the Multi-fold universe”, Navigation page listing all papers. https://shmaesphysics.wordpress.com/shmaes-physics-site-navigation/.

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Overview of the Multi-fold Theory:

\r\n\r\n

Soundbite

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Quantum Physics with entanglement imposes a non-local wavefunction behavior, yet Lorentz invariance impose no supra-luminosity. Gravity (metrics or spacetime curvature) is the result of spacetime going out of its way, and contorting , to support such requirements, as demanded by the content of the universe.

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The multi-fold theory is about explaining that and all the consequences of it.

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More details

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In a multi-fold universe, gravity emerges from Entanglement through the multi-fold mechanisms. As a result, gravity-like effects appear in between entangled particles, that they be real or virtual. Long range, massless gravity results from entanglement of massless virtual particles. Entanglement of massive virtual particles leads to massive gravity contributions at very smalls scales. Multi-folds mechanisms also result into a spacetime that is discrete, with a random walk fractal structure and non-commutative geometry that is Lorentz invariant and where spacetime nodes and particles can be modeled with microscopic black holes. All these recover General Relativity (GR) at large scales and semi-classical models remain valid till smaller scale than usually expected. Gravity can therefore be added to the Standard Model resulting into what we defined as SMG, the Standard Model (SM)with gravity interactions not negligible at the SM scales. This can contribute to resolving several open issues with the Standard Model without New Physics other than gravity, i.e. no new particles or forces. These considerations hints at a even stronger relationship between gravity and the Standard Model.

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Among the multi-fold SMG discoveries, the apparition of an-always in-flight, and hence non-interacting, right-handed neutrinos, coupled to the Higgs boson is quite notable. It is supposedly always around right-handed neutrinos, due to chirality flips by gravity of the massless Weyl fermions, induced by 7D space time matter models and hidden behind the Higgs boson or field at the entry points and exit points of the multi-folds. Massless Higgs bosons modeled as minimal microscopic black holes mark concretized spacetime location. They can condensate into Dirac Kerr-Newman soliton Qballs to produce massive and charged particles, thereby providing a microscopic explanation for a Higgs driven inflation, the electroweak symmetry breaking, the Higgs mechanism, the mass acquisition and the chirality of fermions and spacetime; all resulting from the multi-fold gravity electroweak symmetry breaking.

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The original multi-fold paper proposes contributions to several open problems in physics, like the reconciliation of General Relativity (GR) with Quantum Physics, explaining the origin of gravity proposed as emerging from quantum (EPR- Einstein Podolsky Rosen) entanglement between particles, detailing contributions to dark matter and dark energy, and explaining other Standard Model mysteries without requiring New Physics beyond the Standard Model other than the addition of gravity to the Standard Model Lagrangian. All this is achieved in a multi-fold universe that may well model our real universe, which remains to be validated.

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With the proposed model, spacetime and Physics are modeled from Planck scales to quantum and macroscopic scales and semi-classical approaches appear valid till very small scales. In the original paper, it is argued that spacetime is discrete, with a random walk-based fractal structure, fractional and noncommutative at, and above Planck scales (with a 2-D behavior and Lorentz invariance preserved by random walks till the early moments of the universe). Spacetime results from past random walks of particles. Spacetime locations and particles can be modeled as microscopic black holes (Schwarzschild for photons and concretized spacetime coordinates, and metrics between Reisner Nordstrom, and Kerr Newman for massive and possibly charged particles – the latter being possibly extremal). Although possibly surprising, the original paper recovers results consistent with others, while also being able to justify the initial assumptions of black holes from the gravity or entanglement model in a multi-fold universe.  The resulting gravity model recovers General Relativity at larger scale, as a 4D process, with massless gravity, but also with massive gravity components at very small scale that make gravity non-negligible at these scales. Semi-classical models also turn out to work well till way smaller scales that usually expected. One may also encounter different coupling values at very small scales, in the 2D massless random walk regime.

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In recent works, the real universe is theoretically multi-fold, and the E/G conjecture is factual in the real universe. With this, we can recover the whole multi-fold theory from GR a Planck scale. It is what we call the top-down-up-and-upper derivation of multi-fold theory. We have also repeatedly encountered multi-folds (like) phenomena in the real universe, at Planck scales. It is contained in the GR equations at Planck scales, just as we already obtained when rigorously, and correctly, quantizing the Hilbert Einstein Action. Multi-folds are contained in the Yang Mills scattering Feynman diagrams with its double copy behavior. They are also encountered in superstrings and M-theory, through its AdS/CFT correspondence conjecture. Dark matter observations also seem to indicate support for its multi-fold explanation as another indication that the E/G conjecture is factual.  

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Even more recent results have used the multi-fold works to prove asymptotic safety of gravity in the real universe, the mass gap conjecture as valid only in a discrete spacetime; to derive the symmetries of the standard model and to predict the ratios of dark matter and dark energy in the universe.

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Inspired by multi-fold theory considerations, We also discuss many challenges encountered in Superstrings (and M-theory as well as the AdS/CFT correspondence conjecture), GUTs, TOEs, LQG and other quantum gravity theory and limitations of conventional Quantum Physics and QFT. We propose a new interpretation of conjectures like ER = EPR and GR = QM as different facets of multi-fold theory can neither can model on their own. Both misses consideration and can at best introduce wormholes or entanglement. The important point is that the conjectures become factual when seen as such facets. It also relates to a new interpretation of quantum Physics and wave function around the W-type multi-fold hypothesis.

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Conversely, GR and Quantum physics, including path integrals, the Born rule, and wave functions, can be recovered through different paths from multi-fold spacetime reconstruction and the W-type multi-fold hypothesis. Again, in a multi-fold universe, GR and Quantum Physics are not incompatible, they are just different facets of multi-fold mechanisms, something that neither theory can well model.

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With the Ultimate Unification, we suspect that there are no new fundamental particle above the energy scales of the gravity electroweak symmetry breaking.

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All the outcomes of the multi-fold theory, so far, are compiled on the site https://shmaesphysics.wordpress.com/shmaes-physics-site-navigation/. This includes also our analysis and interpretations of the impact of multi-fold theory on New Physics.

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The community will contain some of our papers and invites related papers from others.

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Current list of publications (web): (latest is always at https://shmaesphysics.wordpress.com/shmaes-physics-site-navigation/):

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All the pages on one page:

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Curation Policy: Demokritos Scientific Journal

\n

At the Valamontes Center for Scientific Publication, we are committed to ensuring the quality, relevance, and accessibility of the research we publish. Our curation process is designed to foster scientific advancement by providing a platform for groundbreaking research across various physics disciplines while maintaining transparency and openness. This policy outlines the key principles and processes involved in curating and publishing content.

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1. Submission Review

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2. Relevance and Scope

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3. Categorization by Experts

\n\n

4. Open Review Process

\n\n

5. Accessibility

\n\n

6. Updates and Corrections

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7. Ethical Standards

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8. Continuous Improvement

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9. It is recommended that researchers get an ORCID, which stands for Open Researcher and Contributor ID. This name-independent person-identifier was founded specifically to help solve the problem of name ambiguity in research and enable transparent and trustworthy connections between researchers, their contributions, and their affiliations.

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You can use your ID, maintain and update your record, share your information, and search the ORCID Registry for free.

", "description": "Explore the frontiers of quantum gravity, string theory, and advanced mathematics. This section bridges deep theoretical physics with rigorous mathematical models, driving innovation in cosmology, particle physics, and the geometry of the universe.", "organizations": [ { "name": "Demokritos Scientific Journal" }, { "name": "Kapodistrian Academy of Science" } ], "page": "

About Us: Advanced Theoretical Physics and Mathematics

\n

The Advance Theoretical Physics and Mathematics Center was founded to provide an open-access platform for physical science researchers to share groundbreaking discoveries and innovative ideas with the global community. Our goal is to democratize scientific knowledge by removing barriers to access and encouraging a collaborative, transparent review process.

\n

Our Vision

\n

At the Community Center, we believe that scientific progress should be accessible to all. We aim to bridge the gap between researchers and the broader public, fostering a deeper understanding of the complexities of physics and related fields. By creating an inclusive space for all voices in the scientific community, we support the exploration of new ideas that push the boundaries of human knowledge.

\n

Our Mission

\n

We are dedicated to curating and publishing high-quality research in all areas of physics, from theoretical explorations in quantum mechanics to applied breakthroughs in materials science. Our open-review model prioritizes transparency, allowing the wider scientific community to scrutinize, debate, and improve published research.

\n

By maintaining an accessible platform free of traditional paywalls, we ensure that every researcher, regardless of geographical location or institutional affiliation, can share their contributions and engage with the latest developments in their field.

\n

What We Publish

\n

Our journal, Demokritos Scientific Journal: Open Access Research for Discovery, focuses on various disciplines within physics, including but not limited to:

\n\n

We also welcome interdisciplinary research that bridges physics with other scientific domains, encouraging new perspectives and approaches.

\n

Why Choose Valamontes Center for Your Research?

\n

At the Community Center for Scientific Publication, we offer:

\n\n

Our Commitment to Quality

\n

Although we do not employ traditional peer review, our rigorous curation process ensures that each paper is thoroughly vetted for completeness, relevance, and scientific integrity. We work with experts across various disciplines to categorize and organize research into our curated volumes, allowing for both broad and specialized focus areas.

\n

Join Us in Advancing Scientific Discovery

\n

We invite researchers, scholars, and enthusiasts alike to engage with our platform—whether you are submitting your work or seeking out the latest developments in the field of physics. Together, we can foster a new era of discovery where ideas are shared freely, challenged openly, and celebrated for their contributions to our understanding of the universe.

\n

Creative Commons Attribution 4.0 International

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Curation Policy: Demokritos Scientific Journal

\n

At the Valamontes Center for Scientific Publication, we are committed to ensuring the quality, relevance, and accessibility of the research we publish. Our curation process is designed to foster scientific advancement by providing a platform for groundbreaking research across various physics disciplines while maintaining transparency and openness. This policy outlines the key principles and processes involved in curating and publishing content.

\n

1. Submission Review

\n\n

2. Relevance and Scope

\n\n

3. Categorization by Experts

\n\n

4. Open Review Process

\n\n

5. Accessibility

\n\n

6. Updates and Corrections

\n\n

7. Ethical Standards

\n\n

8. Continuous Improvement

\n", "page": "

About Us: Valamontes Center for Scientific Publication

\n

The Demokritos Scientific Journal was founded to provide an open-access platform for physical science researchers to share groundbreaking discoveries and innovative ideas with the global community. Our goal is to democratize scientific knowledge by removing barriers to access and encouraging a collaborative, transparent review process.

\n

Our Vision

\n

At the Demokritos Scientific Journal, we believe that scientific progress should be accessible to all. We aim to bridge the gap between researchers and the broader public, fostering a deeper understanding of the complexities of physics and related fields. By creating an inclusive space for all voices in the scientific community, we support the exploration of new ideas that push the boundaries of human knowledge.

\n

Our Mission

\n

We are dedicated to curating and publishing high-quality research in all areas of physics, from theoretical explorations in quantum mechanics to applied breakthroughs in materials science. Through our open-review model, we prioritize transparency, allowing published research to be scrutinized, debated, and improved by the wider scientific community.

\n

By maintaining an accessible platform free of traditional paywalls, we ensure that every researcher, regardless of geographical location or institutional affiliation, can share their contributions and engage with the latest developments in their field.

\n

What We Publish

\n

Our journal, Demokritos Scientific Journal: Open Access Research for Discovery, focuses on various disciplines within physics, including but not limited to:

\n\n

We also welcome interdisciplinary research that bridges physics with other scientific domains, encouraging new perspectives and approaches.

\n

Why Choose Valamontes Center for Your Research?

\n

At the Demokritos Scientific Journal, we offer:

\n\n

Our Commitment to Quality

\n

Although we do not employ traditional peer review, our rigorous curation process ensures that each paper is thoroughly vetted for completeness, relevance, and scientific integrity. We work with experts across various disciplines to categorize and organize research into our curated volumes, allowing for both broad and specialized focus areas.

\n

Join Us in Advancing Scientific Discovery

\n

We invite researchers, scholars, and enthusiasts alike to engage with our platform—whether you are submitting your work or seeking out the latest developments in the field of physics. Together, we can foster a new era of discovery where ideas are shared freely, challenged openly, and celebrated for their contributions to our understanding of the universe.

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