Spontaneous symmetry breaking
View article: The Holographic Corq Model: Chern-Simons Protection and Gauge-Higgs Unification at 50 TeV
The Holographic Corq Model: Chern-Simons Protection and Gauge-Higgs Unification at 50 TeV Open
We present the Holographic Corq Model, a comprehensive framework addressing the Standard Model’s hierarchy and flavor puzzles through the principle of Holographic Duality. The model is formally defined as a Gauge-Higgs Unification theory i…
View article: Floquet thermalization by power-law induced permutation symmetry breaking
Floquet thermalization by power-law induced permutation symmetry breaking Open
Permutation symmetry plays a central role in the understanding of collective quantum dynamics. On the other hand, interactions are rarely uniform in real systems. By introducing power law couplings that algebraically decay with the distanc…
View article: Fractal Compact Manifold Theory: Unifying Quantum Mechanics, Gravity, and Consciousness via Atemporal Symmetry Breaking in Multifractal Configuration Space
Fractal Compact Manifold Theory: Unifying Quantum Mechanics, Gravity, and Consciousness via Atemporal Symmetry Breaking in Multifractal Configuration Space Open
The universe is not unconscious. It never was. Fractal Compact Manifold Theory begins with the absolute minimum any consistent theory of quantum gravity is allowed to assume: • UV finiteness of loops • full Clifford algebra over the manifo…
View article: Ultrasound evidence for multicomponent superconducting order parameter in Ba1−xKxFe2As2 with electron quadrupling phase
Ultrasound evidence for multicomponent superconducting order parameter in Ba1−xKxFe2As2 with electron quadrupling phase Open
Experiments have pointed to the formation of the electron quadrupling condensate in Ba 1− x K x Fe 2 As 2 at x ~ 0.8. The state spontaneously breaks time-reversal symmetry and is sandwiched between two critical points, separating it from t…
View article: Fractal Compact Manifold Theory: Unifying Quantum Mechanics, Gravity, and Consciousness via Atemporal Symmetry Breaking in Multifractal Configuration Space
Fractal Compact Manifold Theory: Unifying Quantum Mechanics, Gravity, and Consciousness via Atemporal Symmetry Breaking in Multifractal Configuration Space Open
The universe is not unconscious. It never was. Fractal Compact Manifold Theory begins with the absolute minimum any consistent theory of quantum gravity is allowed to assume: • UV finiteness of loo…
View article: Fractal Compact Manifold Theory: Unifying Quantum Mechanics, Gravity, and Consciousness via Atemporal Symmetry Breaking in Multifractal Configuration Space
Fractal Compact Manifold Theory: Unifying Quantum Mechanics, Gravity, and Consciousness via Atemporal Symmetry Breaking in Multifractal Configuration Space Open
The universe is not unconscious. It never was. Fractal Compact Manifold Theory begins with the absolute minimum any consistent theory of quantum gravity is allowed to assume: • UV finiteness of loops • full Clifford algebra over the manifo…
View article: Fractal Compact Manifold Theory: Unifying Quantum Mechanics, Gravity, and Consciousness via Atemporal Symmetry Breaking in Multifractal Configuration Space
Fractal Compact Manifold Theory: Unifying Quantum Mechanics, Gravity, and Consciousness via Atemporal Symmetry Breaking in Multifractal Configuration Space Open
The universe is not unconscious. It never was. Fractal Compact Manifold Theory begins with the absolute minimum any consistent theory of quantum gravity is allowed to assume: • UV finiteness of loo…
View article: Electroweak Theory with Symmetry Broken Gamma Matrices and Fermion Boson Duality
Electroweak Theory with Symmetry Broken Gamma Matrices and Fermion Boson Duality Open
This record contains the preprint of a theoretical study of the electroweak interaction based on symmetry broken gamma matrices and a fermion boson duality framework. The work reformulates the Glashow Weinberg Salam electroweak theory by d…
View article: Fractal Compact Manifold Theory: Unifying Quantum Mechanics, Gravity, and Consciousness via Atemporal Symmetry Breaking in Multifractal Configuration Space
Fractal Compact Manifold Theory: Unifying Quantum Mechanics, Gravity, and Consciousness via Atemporal Symmetry Breaking in Multifractal Configuration Space Open
The universe is not unconscious. It never was. Fractal Compact Manifold Theory begins with the absolute minimum any consistent theory of quantum gravity is allowed to assume: • UV finiteness of loops • full Clifford algebra over the manifo…
View article: Gauge theories from scattering amplitudes with minimal assumptions
Gauge theories from scattering amplitudes with minimal assumptions Open
We revisit the emergence of a Yang-Mills symmetry in theories with massless spin 1 particles from fundamental physical properties of scattering amplitudes. In the standard proofs, some symmetry and reality properties of the coupling consta…
View article: Emergent Photons and Confinement: A Numerical Study on <mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML" display="inline"> <mml:mrow> <mml:msub> <mml:mrow> <mml:mi mathvariant="double-struck">Z</mml:mi> </mml:mrow> <mml:mrow> <mml:mi>N</mml:mi> </mml:mrow> </mml:msub> </mml:mrow> </mml:math> Lattice Gauge Theory
Emergent Photons and Confinement: A Numerical Study on Lattice Gauge Theory Open
We numerically study Z N lattice gauge theories in 4D as prototypical models of systems with Z N 1-. For N ≥ 3 , we provide evidence that such systems exhibit not only the expected phases with spontaneously broken/restore…
View article: Revisiting black holes and their thermodynamics in Einstein-Kalb-Ramond gravity
Revisiting black holes and their thermodynamics in Einstein-Kalb-Ramond gravity Open
Einstein-Kalb-Ramond gravity is an alternative theory of gravity in which a rank-two antisymmetric tensor field, known as the Kalb-Ramond field, is nonminimally coupled to gravity and can induce spontaneous Lorentz symmetry breaking when i…
View article: Defect Bootstrap: Tight Ground State Bounds in Spontaneous Symmetry Breaking Phases
Defect Bootstrap: Tight Ground State Bounds in Spontaneous Symmetry Breaking Phases Open
The recent development of bootstrap methods based on semidefinite relaxations of positivity constraints has enabled rigorous two-sided bounds on local observables directly in the thermodynamic limit. However, these bounds inevitably become…
View article: Deconstructing dynamics of symmetry breaking
Deconstructing dynamics of symmetry breaking Open
The Kibble–Zurek mechanism (KZM) successfully predicts the density of topological defects deposited by the phase transitions, but it is not clear why. Its key conjecture is that, near the critical point of the second-order phase transition…
View article: On the origin of the $$N_c^1$$ scaling in the confined but chirally symmetric phase at high T
On the origin of the $$N_c^1$$ scaling in the confined but chirally symmetric phase at high T Open
There is lattice evidence that the QCD matter above the chiral restoration temperature $$T_{ch}$$ and below the deconfinement temperature $$T_d$$ , called stringy fluid, is characterized by approximate chiral spin symmetry, which …
View article: Revisiting black holes and their thermodynamics in Einstein-Kalb-Ramond gravity
Revisiting black holes and their thermodynamics in Einstein-Kalb-Ramond gravity Open
Einstein-Kalb-Ramond gravity is an alternative theory of gravity in which a rank-two antisymmetric tensor field, known as the Kalb-Ramond field, is nonminimally coupled to gravity and can induce spontaneous Lorentz symmetry breaking when i…
View article: 8. Symmetry Theory: Origin of the ψ–Θ–χ Architecture
8. Symmetry Theory: Origin of the ψ–Θ–χ Architecture Open
This paper introduces a foundational Symmetry Theory that explains the origin and necessity of the ψ–Θ–χ architecture. Unlike conventional physical theories, which take symmetry groups and structural roles as presupposed, this framework de…
View article: Origin of Order Extension and Application 3: Structural Stability as the Origin of Gauge Symmetry
Origin of Order Extension and Application 3: Structural Stability as the Origin of Gauge Symmetry Open
Gauge symmetry serves as the mathematical foundation of the Standard Model, yet its physical origin remains a central challenge in theoretical physics. Based on the principle of structural stability, this paper proposes that gauge symmetr…
View article: Web of Non-invertible Dualities for (2+1) Dimensional Models with Subsystem Symmetries
Web of Non-invertible Dualities for (2+1) Dimensional Models with Subsystem Symmetries Open
We extend non-invertible duality concepts from one-dimensional systems to two spatial dimensions by constructing a web of non-invertible dualities for lattice models with subsystem symmetries. For the $\mathbb{Z}_2 \times \mathbb{Z}_2$ sub…
View article: Quantum chromodynamics and hadron structure
Quantum chromodynamics and hadron structure Open
In this review paper, I present a study of the structure of the hadrons computed in the covariant Nambu-Jona-Lasinio model as the chiral effective quark theory of QCD. I describe how the NJL model is treated to imitate the spontaneous chir…
View article: <mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML" display="inline"> <mml:mi>θ</mml:mi> </mml:math> -term effects on isospin asymmetric hot and dense quark matter
-term effects on isospin asymmetric hot and dense quark matter Open
We investigate the impact of the C P -violating θ term on isospin symmetry breaking in quark matter and compact star properties using a two-flavor Nambu-Jona-Lasinio model. By incorporating the θ parameter through the Kobayashi-Maska…
View article: Strain-induced Berry phase in chiral superconductors
Strain-induced Berry phase in chiral superconductors Open
We study the topology of the order parameter in the intermediate phase between the superconducting and time-reversal symmetry breaking transitions of a $p_x+ip_y$ superconductor under strain. The application of in-plane strain reduces the …
View article: Modular invariant inflation and reheating
Modular invariant inflation and reheating Open
A bstract We use modular symmetry as an organizing principle that attempts to simultaneously address the lepton flavor puzzle, inflation, and post-inflationary reheating. We demonstrate this approach using the finite modular group A 4 in t…
View article: Topological BF Theory construction of twisted dihedral quantum double phases from spontaneous symmetry breaking
Topological BF Theory construction of twisted dihedral quantum double phases from spontaneous symmetry breaking Open
Nonabelian topological orders host exotic anyons central to quantum computing, yet established realizations rely on case-by-case constructions that are often conceptually involved. In this work, we present a systematic construction of nona…
View article: Quantum chromodynamics and hadron structure
Quantum chromodynamics and hadron structure Open
In this review paper, I present a study of the structure of the hadrons computed in the covariant Nambu-Jona-Lasinio model as the chiral effective quark theory of QCD. I describe how the NJL model is treated to imitate the spontaneous chir…
View article: Towards spinning $U(1)$ gauged non-topological solitons in the model with Chern-Simons term
Towards spinning $U(1)$ gauged non-topological solitons in the model with Chern-Simons term Open
We obtain localized field configurations with finite energy in a ($2+1$)-dimensional model with Maxwell and Chern-Simons gauge terms coupled to a massive complex scalar field. These non-topological solitons are characterized by the $U(1)$ …
View article: Proposal for symmetry topological field theories and symmetry theories from holography
Proposal for symmetry topological field theories and symmetry theories from holography Open
We propose an embedding of the symmetry topological field theory (symTFT) construction in (finite cutoff) holography. The proposal passes several nontrivial consistency checks reproducing the expected symTFTs in various cases, including th…
View article: Strain-induced Berry phase in chiral superconductors
Strain-induced Berry phase in chiral superconductors Open
We study the topology of the order parameter in the intermediate phase between the superconducting and time-reversal symmetry breaking transitions of a $p_x+ip_y$ superconductor under strain. The application of in-plane strain reduces the …
View article: Web of Non-invertible Dualities for (2+1) Dimensional Models with Subsystem Symmetries
Web of Non-invertible Dualities for (2+1) Dimensional Models with Subsystem Symmetries Open
We extend non-invertible duality concepts from one-dimensional systems to two spatial dimensions by constructing a web of non-invertible dualities for lattice models with subsystem symmetries. For the $\mathbb{Z}_2 \times \mathbb{Z}_2$ sub…
View article: Origin of Order Extension and Application 3: Structural Stability as the Origin of Gauge Symmetry
Origin of Order Extension and Application 3: Structural Stability as the Origin of Gauge Symmetry Open
Gauge symmetry serves as the mathematical foundation of the Standard Model, yet its physical origin remains a central challenge in theoretical physics. Based on the principle of structural stability, this paper proposes that gauge symmetry…