Asymptotic freedom
View article: Quarks as Coherential Monopoles — The Origin of Color from Three-Dimensional Topology (RCD Paper X — Version 1.1)
Quarks as Coherential Monopoles — The Origin of Color from Three-Dimensional Topology (RCD Paper X — Version 1.1) Open
Paper X extends Radial Coherential Dynamics beyond vortices and leptons by deriving quarks as monopoles (point defects) in the coherential gradient field ∇C. The three “colors” of QCD arise as the three independent orientations of monopole…
View article: Quarks as Coherential Monopoles — The Origin of Color from Three-Dimensional Topology (RCD Paper X — Version 1.1)
Quarks as Coherential Monopoles — The Origin of Color from Three-Dimensional Topology (RCD Paper X — Version 1.1) Open
Paper X extends Radial Coherential Dynamics beyond vortices and leptons by deriving quarks as monopoles (point defects) in the coherential gradient field ∇C. The three “colors” of QCD arise as the three independent orientations of monopole…
View article: Quantum Computing 2+1-dimensional Quantum Electrodynamics
Quantum Computing 2+1-dimensional Quantum Electrodynamics Open
This thesis investigates advances in quantum simulation methods for lattice gauge theories, with a focus on (2+1)-dimensional quantum electrodynamics (QED), which shares important features with (3+1)-dimensional quantum chromodynamics (QCD…
View article: Mathematica Notebooks for FBD–QCD: Asymptotic Freedom, Confinement, and UV Regularization
Mathematica Notebooks for FBD–QCD: Asymptotic Freedom, Confinement, and UV Regularization Open
This Zenodo record provides Mathematica notebooks implementing the Fermion-Boson Duality (FBD) approach to quantum chromodynamics (QCD). The codes generate numerical results and figures demonstrating the FBD-QCD effective potential, natura…
View article: Mathematica Notebooks for FBD–QCD: Asymptotic Freedom, Confinement, and UV Regularization
Mathematica Notebooks for FBD–QCD: Asymptotic Freedom, Confinement, and UV Regularization Open
This Zenodo record provides Mathematica notebooks implementing the Fermion-Boson Duality (FBD) approach to quantum chromodynamics (QCD). The codes generate numerical results and figures demonstrating the FBD-QCD effective potential, natura…
View article: Geometric Origin of the QCD Scale:Higher-Derivative Lee-Wick Gluons and the Emergent Mass Gap
Geometric Origin of the QCD Scale:Higher-Derivative Lee-Wick Gluons and the Emergent Mass Gap Open
The unique local, finite ultraviolet completion framework, whose intermediate theory is the sixcomponent scalar field Ψ ∈ C6, is extended to non-Abelian gauge bosons. A minimal higher-derivative extension of Quantum Chromodynamics (QCD) in…
View article: Geometric Origin of the QCD Scale:Higher-Derivative Lee-Wick Gluons and the Emergent Mass Gap
Geometric Origin of the QCD Scale:Higher-Derivative Lee-Wick Gluons and the Emergent Mass Gap Open
The unique local, finite ultraviolet completion framework, whose intermediate theory is the sixcomponent scalar field Ψ ∈ C6, is extended to non-Abelian gauge bosons. A minimal higher-derivative extension of Quantum Chromodynamics (QCD) in…
View article: Gluon Field Geometry: Deriving Asymptotic Freedom and Confinement from Solitonic Elasticity
Gluon Field Geometry: Deriving Asymptotic Freedom and Confinement from Solitonic Elasticity Open
Quantum Chromodynamics (QCD) is characterized by two opposing phenomena: Confinement at long distances (force increases with separation) and Asymptotic Freedom at short distances (force vanishes). In the Standard Model, this behavior arise…
View article: Gluon Field Geometry: Deriving Asymptotic Freedom and Confinement from Solitonic Elasticity
Gluon Field Geometry: Deriving Asymptotic Freedom and Confinement from Solitonic Elasticity Open
Quantum Chromodynamics (QCD) is characterized by two opposing phenomena: Confinement at long distances (force increases with separation) and Asymptotic Freedom at short distances (force vanishes). In the Standard Model, this behavior arise…
View article: Mathematica Notebooks for FBD–QCD: Asymptotic Freedom, Confinement, and UV Regularization
Mathematica Notebooks for FBD–QCD: Asymptotic Freedom, Confinement, and UV Regularization Open
This Zenodo record provides a collection of Mathematica notebooks that implement the Fermion-Boson Duality (FBD) approach to quantum chromodynamics (QCD). The codes generate numerical results and plots for the FBD-QCD effective potential, …
View article: Unveiling Confinement: Lattice QCD and the Infrared Dynamics of Gluons
Unveiling Confinement: Lattice QCD and the Infrared Dynamics of Gluons Open
Quantum Chromodynamics (QCD) stands as the fundamental theory describing the strong nuclear force, binding quarks and gluons into hadrons. A cornerstone of QCD, yet one of its most challenging aspects, is the phenomenon of color confinemen…
View article: Infrared Slavery from Ultraviolet Freedom: A Lattice QCD Paradigm
Infrared Slavery from Ultraviolet Freedom: A Lattice QCD Paradigm Open
Quantum Chromodynamics (QCD) presents one of the most intriguing aspects of the Standard Model: the paradoxical behavior of its fundamental constituents. At high energies, quarks and gluons exhibit asymptotic freedom, behaving as nearly fr…
View article: Bridging Scales: Confinement from Asymptotic Freedom via Lattice QCD
Bridging Scales: Confinement from Asymptotic Freedom via Lattice QCD Open
Quantum Chromodynamics (QCD) presents two fundamental and seemingly disparate phenomena: asymptotic freedom at short distances, where quarks and gluons interact weakly, and confinement at long distances, where they are perpetually bound wi…
View article: Infrared Slavery from Ultraviolet Freedom: A Lattice QCD Paradigm
Infrared Slavery from Ultraviolet Freedom: A Lattice QCD Paradigm Open
Quantum Chromodynamics (QCD) presents one of the most intriguing aspects of the Standard Model: the paradoxical behavior of its fundamental constituents. At high energies, quarks and gluons exhibit asymptotic freedom, behaving as nearly fr…
View article: The Unification of Asymptotic Freedom and Color Confinement via Lattice QCD
The Unification of Asymptotic Freedom and Color Confinement via Lattice QCD Open
Quantum Chromodynamics (QCD) describes the strong interaction, binding quarks and gluons into hadrons. A fundamental mystery of QCD is the apparent duality between asymptotic freedom, where quarks and gluons interact weakly at high energie…
View article: Unveiling Confinement: Lattice QCD and the Infrared Dynamics of Gluons
Unveiling Confinement: Lattice QCD and the Infrared Dynamics of Gluons Open
Quantum Chromodynamics (QCD) stands as the fundamental theory describing the strong nuclear force, binding quarks and gluons into hadrons. A cornerstone of QCD, yet one of its most challenging aspects, is the phenomenon of color confinemen…
View article: The Unification of Asymptotic Freedom and Color Confinement via Lattice QCD
The Unification of Asymptotic Freedom and Color Confinement via Lattice QCD Open
Quantum Chromodynamics (QCD) describes the strong interaction, binding quarks and gluons into hadrons. A fundamental mystery of QCD is the apparent duality between asymptotic freedom, where quarks and gluons interact weakly at high energie…
View article: Bridging Scales: Confinement from Asymptotic Freedom via Lattice QCD
Bridging Scales: Confinement from Asymptotic Freedom via Lattice QCD Open
Quantum Chromodynamics (QCD) presents two fundamental and seemingly disparate phenomena: asymptotic freedom at short distances, where quarks and gluons interact weakly, and confinement at long distances, where they are perpetually bound wi…
View article: A New Picture of the QCD Effective Potential Based on Fermion–Boson Duality
A New Picture of the QCD Effective Potential Based on Fermion–Boson Duality Open
This record contains a research article (current version: Ver2, November 2025) and accompanying Mathematica materials that develop a new picture of the effective potential in quantum chromodynamics based on fermion–boson duality. The paper…
View article: A New Picture of the QCD Effective Potential Based on Fermion–Boson Duality
A New Picture of the QCD Effective Potential Based on Fermion–Boson Duality Open
This record contains a research article and accompanying Mathematica materials that develop a new picture of the effective potential in quantum chromodynamics based on fermion–boson duality. The paper keeps the standard color SU(3) gauge s…
View article: A New Picture of the QCD Effective Potential Based on Fermion–Boson Duality
A New Picture of the QCD Effective Potential Based on Fermion–Boson Duality Open
This record contains a research article (current version: Ver2, November 2025) and accompanying Mathematica materials that develop a new picture of the effective potential in quantum chromodynamics based on fermion–boson duality. The paper…
View article: Mass-Dependent Spectral Filtering: Empirical Power-Law Scaling in Vector Meson Decay Widths
Mass-Dependent Spectral Filtering: Empirical Power-Law Scaling in Vector Meson Decay Widths Open
The suppression of hadronic decay widths in heavy vector mesons (OZI suppression) is conventionally attributed to asymptotic freedom and specific quark-line topology constraints. However, a unified phenomenological scaling law connecting t…
View article: Mass-Dependent Spectral Filtering: Empirical Power-Law Scaling in Vector Meson Decay Widths
Mass-Dependent Spectral Filtering: Empirical Power-Law Scaling in Vector Meson Decay Widths Open
The suppression of hadronic decay widths in heavy vector mesons (OZI suppression) is conventionally attributed to asymptotic freedom and specific quark-line topology constraints. However, a unified phenomenological scaling law connecting t…
View article: Proton mass decompositions in the NNLO QCD
Proton mass decompositions in the NNLO QCD Open
Proton matrix elements of the QCD energy-momentum tensor are expressed by the gravitational form factors. The forward values of the gravitational form factors allow for a decomposition of the proton mass into the contributions from quarks …
View article: Proton mass decompositions in the NNLO QCD
Proton mass decompositions in the NNLO QCD Open
Proton matrix elements of the QCD energy-momentum tensor are expressed by the gravitational form factors. The forward values of the gravitational form factors allow for a decomposition of the proton mass into the contributions from quarks …
View article: The Ontological Origin of Color Confinement and QCD from World Quantum Triple-Rotation Entanglement
The Ontological Origin of Color Confinement and QCD from World Quantum Triple-Rotation Entanglement Open
Building upon World Quantum Theory (WQT), this work presents—for the first time—a derivation of the core features of the strong interaction—color charge, SU(3) symmetry, asymptotic freedom, and color confinement—from the triple-rotation en…
View article: The Ontological Origin of Color Confinement and QCD from World Quantum Triple-Rotation Entanglement
The Ontological Origin of Color Confinement and QCD from World Quantum Triple-Rotation Entanglement Open
Building upon World Quantum Theory (WQT), this work presents—for the first time—a derivation of the core features of the strong interaction—color charge, SU(3) symmetry, asymptotic freedom, and color confinement—from the triple-rotation en…
View article: Unified Origin of Quark Confinement and Asymptotic Freedom from Matter-Field Action Normalization
Unified Origin of Quark Confinement and Asymptotic Freedom from Matter-Field Action Normalization Open
This work extends the identification of the fine-structure constant \alpha as a matter–field action ratio to quantum chromodynamics. By rescaling the physical Yang–Mills potential, we show that the strong coupling \alpha_s = g_s^2 c/\hbar …
View article: Unified Origin of Quark Confinement and Asymptotic Freedom from Matter-Field Action Normalization
Unified Origin of Quark Confinement and Asymptotic Freedom from Matter-Field Action Normalization Open
This work extends the identification of the fine-structure constant \alpha as a matter–field action ratio to quantum chromodynamics. By rescaling the physical Yang–Mills potential, we show that the strong coupling \alpha_s = g_s^2 c/\hbar …
View article: Efficient use of quantum computers for collider physics
Efficient use of quantum computers for collider physics Open
A bstract Most observables at particle colliders involve physics at a wide variety of distance scales. Due to asymptotic freedom of the strong interaction, the physics at short distances can be calculated reliably using perturbative techni…