This paper develops a thermodynamic reading of the adapted Morse landscape arising in the Discrete–Continuous–Quantum correspondence. The starting point is the compact six-dimensional phase-orbit manifold
\nN \u2243 (CP1)3,
\ntogether with an adapted Morse function
\nf : N → R
\nwhose prescribed local minima include the 64 finite phase-sector states inherited from the six-bit configuration space
\nH6 = {±1}6.
\nThe main purpose of the paper is deliberately limited. We do not claim a first-principles derivation of microscopic thermodynamics from a physical Hamiltonian, nor do we assume that DCQ2 has already supplied a rigorous Picard–Lefschetz convergence theorem. Instead, we show that once the adapted Morse function is interpreted as an effective energy landscape,
the compact real integral
Z(β) =\udb80\udc5dNe−βf dμN
\n
defines a finite equilibrium partition function. The formal thimble language is used only as a semiclassical sector bookkeeping device for organizing contributions from critical points.
Two consequences are emphasized. First, in the low-temperature regime, the 64 prescribed minima contribute a discrete ground-sector degeneracy term
\nkB ln 64,
\n
after separating non-universal local fluctuation-volume factors. Second, a simplified twolevel critical-sector model exhibits a Schottky-type heat-capacity peak, illustrating how excited Morse sectors may become relevant at intermediate temperature scales.
Thus the paper isolates a mathematically stable thermodynamic layer attached to the DCQ Morse landscape while leaving stronger dynamical, gravitational, and phenomenological interpretations to later work.
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\nIts purpose is to ensure the open, accurate, and permanent preservation of materials that contribute to the study, dissemination, and peer review of TO as a unified logical–ontological framework for understanding the universe.
\nThe mission of this community is to curate, preserve, and disseminate works that explore, develop, or critically engage with the Seven Absolute Truths and their applications to physics, cosmology, ontology, logic, mathematics, and consciousness studies.
\nThe community promotes open science, philosophical rigor, and cross-disciplinary dialogue between philosophy, mathematics, and physics.
All materials are made freely available under open-access licenses to foster transparent scientific collaboration.
The community accepts the following types of contributions:
\nMaterials must align with the general goals of advancing the academic, scientific, or logical understanding of the Theory of Objectivity.
\nTo ensure academic integrity and transparency, submissions must:
\nAll submissions undergo curatorial review by the TO Curatorial Board, consisting of editors and reviewers appointed by the group administrator (Vidamor Cabannas or a designated curator).
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\ud83c\udf10 https://www.teoriadaobjetividade.com.br
\ud83d\udcd8 Zenodo Community: Theory of Objectivity
\ud83d\udce7 Curatorial contact available via Zenodo messaging portal.
This Curatorial Policy is reviewed annually to ensure continued alignment with Zenodo, FAIR, and Open Science standards.
", "description": "We invite scholars, physicists, philosophers of science, mathematicians, and interdisciplinary thinkers to participate in the expansion, critique, and formal development of the Theory of Objectivity.\nIf possible, participate in the Curatorial Board.", "page": "The Theory of Objectivity (TO) is a comprehensive logical–ontological framework developed by Vidamor Cabannas to explain the origin and structure of the universe through a system of seven axioms known as the Seven Absolute Truths.
This community on Zenodo serves as the official open-access repository for all scholarly materials, datasets, and collaborative research related to the Theory of Objectivity.
The purpose of this community is to curate, preserve, and disseminate research that explores or expands upon the Theory of Objectivity — a theory that seeks to unite logic, mathematics, physics, and metaphysics within a single deductive system.
\nThrough open publication and collaboration, the TO Zenodo Group promotes:
\nThis repository includes:
\nAll materials follow open-access principles and are archived under DOI identifiers to ensure long-term preservation and citation integrity.
\nThe Theory of Objectivity proposes that Nothingness is a primitive mathematical essence from which all existence unfolds by logical necessity.
It seeks to provide a deductive model of the universe capable of explaining the emergence of space, time, matter, and consciousness through a coherent set of axioms — redefining the boundary between physics and philosophy.
As Cabannas affirms, “The universe does not arise from energy or matter, but from logic itself — the first cause and the final horizon of all being.”
\nResearchers, physicists, philosophers, and interdisciplinary thinkers are invited to contribute:
\nTogether, we aim to advance an open, reason-based cosmology that unites science and metaphysics in the pursuit of understanding the Whole.
\n\n
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Accepted contributions include
\n• research papers
• technical notes
• appendices and supplementary materials
• numerical protocols and computational notebooks
• conceptual and mathematical developments in geometric physics
\n
Submission Policy
\nThis community primarily hosts research produced within the
geometric research programs related to DCQ and FBT, but also
welcomes related contributions on geometric structures in
quantum theory and gravity.
All submissions are curated to ensure relevance to the scope
of geometric foundations of fundamental physics.
This community collects research on geometric and structural approaches
to quantum theory, gauge interactions, and gravity.
The focus lies on mathematical frameworks in which physical structures
emerge from underlying geometric or topological principles. Topics of
interest include symplectic geometry, Berry curvature structures,
phase-space geometry, fibre bundles, and related geometric mechanisms
relevant to quantum theory and gravitation.
Particular attention is given to geometric research programs such as
\n• Dual-Phase Curvature Quantization (DCQ)
• Fracture–Berry–Tension (FBT) framework
which explore the role of dual-phase geometry, curvature structures,
and symplectic manifolds in the emergence of gauge interactions,
particle spectra, and gravitational dynamics.
The community serves as a repository for theoretical papers,
supplementary materials, and related research outputs in geometric
approaches to fundamental physics.