@kritikerneu.bsky.social
The I-field breaks T-symmetry via the dissipation term γu^μ∂_μI in the field equation:
□I + m²I + λI³ + γu^μ∂_μI = -g_I J
This is fundamental irreversibility—not emergent, not statistical!
Feedback welcome! #PhysicsSky #QuantumMechanics #FoundationsOfPhysics (3/3)
□I + m²I + λI³ + γu^μ∂_μI = -g_I J
This is fundamental irreversibility—not emergent, not statistical!
Feedback welcome! #PhysicsSky #QuantumMechanics #FoundationsOfPhysics (3/3)
January 16, 2026 at 9:36 PM
The I-field breaks T-symmetry via the dissipation term γu^μ∂_μI in the field equation:
□I + m²I + λI³ + γu^μ∂_μI = -g_I J
This is fundamental irreversibility—not emergent, not statistical!
Feedback welcome! #PhysicsSky #QuantumMechanics #FoundationsOfPhysics (3/3)
□I + m²I + λI³ + γu^μ∂_μI = -g_I J
This is fundamental irreversibility—not emergent, not statistical!
Feedback welcome! #PhysicsSky #QuantumMechanics #FoundationsOfPhysics (3/3)
Key features:
- No stochastic noise (unlike GRW/CSL)
- No Many-Worlds branching
- Mass-squared decoherence scaling
- Testable predictions for matter-wave interferometry
Collapse emerges from dissipative field dynamics, not measurement postulates. (2/3)
- No stochastic noise (unlike GRW/CSL)
- No Many-Worlds branching
- Mass-squared decoherence scaling
- Testable predictions for matter-wave interferometry
Collapse emerges from dissipative field dynamics, not measurement postulates. (2/3)
January 16, 2026 at 9:30 PM
Key features:
- No stochastic noise (unlike GRW/CSL)
- No Many-Worlds branching
- Mass-squared decoherence scaling
- Testable predictions for matter-wave interferometry
Collapse emerges from dissipative field dynamics, not measurement postulates. (2/3)
- No stochastic noise (unlike GRW/CSL)
- No Many-Worlds branching
- Mass-squared decoherence scaling
- Testable predictions for matter-wave interferometry
Collapse emerges from dissipative field dynamics, not measurement postulates. (2/3)
New preprint: "Collapse of the Wave Function: Irreversibility as a Fundamental Dynamical Principle"
I propose objective collapse through a universal I-field that breaks time-symmetry at the fundamental level.
📄 doi.org/10.5281/zeno...
(1/3)
I propose objective collapse through a universal I-field that breaks time-symmetry at the fundamental level.
📄 doi.org/10.5281/zeno...
(1/3)
Collapse of the Wave Function: Irreversibility as a Fundamental Dynamical Principle
The collapse of the wave function remains one of the deepest puzzles in quantum mechanics. The Schrödinger equation is unitary and time-reversal symmetric, yet measurement requires an additional postu...
zenodo.org
January 16, 2026 at 9:30 PM
New preprint: "Collapse of the Wave Function: Irreversibility as a Fundamental Dynamical Principle"
I propose objective collapse through a universal I-field that breaks time-symmetry at the fundamental level.
📄 doi.org/10.5281/zeno...
(1/3)
I propose objective collapse through a universal I-field that breaks time-symmetry at the fundamental level.
📄 doi.org/10.5281/zeno...
(1/3)
New paper: Why can't you undo a decision? 🧠
Turns out commitment isn't psychological—it's topological.
The return path literally ceases to exist.
"The Point of No Return: A New Theory of Decision Making"
doi.org/10.5281/zeno...
Turns out commitment isn't psychological—it's topological.
The return path literally ceases to exist.
"The Point of No Return: A New Theory of Decision Making"
doi.org/10.5281/zeno...
The Point of No Return: A New Theory of Decision Making
We show that decision-making is a fundamentally irreversible dynamical process arising from saddle-node bifurcation. Using the normal form $\dot{x} = r + x^2$, we prove that decision commitment corre...
doi.org
December 29, 2025 at 10:19 AM
New paper: Why can't you undo a decision? 🧠
Turns out commitment isn't psychological—it's topological.
The return path literally ceases to exist.
"The Point of No Return: A New Theory of Decision Making"
doi.org/10.5281/zeno...
Turns out commitment isn't psychological—it's topological.
The return path literally ceases to exist.
"The Point of No Return: A New Theory of Decision Making"
doi.org/10.5281/zeno...
🚨 New Research Alert! 🚨
A thermodynamically consistent electro-thermal model for nerve impulse propagation, coupling electrical and thermal dynamics, has been developed.
Full Details here: zenodo.org/records/1473...
#Neuroscience #Biophysics #Thermodynamics
A thermodynamically consistent electro-thermal model for nerve impulse propagation, coupling electrical and thermal dynamics, has been developed.
Full Details here: zenodo.org/records/1473...
#Neuroscience #Biophysics #Thermodynamics
Thermodynamic Insights into Axonal Signaling: A Unified Electro-Thermal Framework
Abstract: Nerve impulse propagation, a cornerstone of neuronal communication, involves a complex interplay of electrical, thermal, and thermodynamic processes. While the Hodgkin-Huxley (H&H) model pro...
zenodo.org
January 26, 2025 at 5:34 PM
🚨 New Research Alert! 🚨
A thermodynamically consistent electro-thermal model for nerve impulse propagation, coupling electrical and thermal dynamics, has been developed.
Full Details here: zenodo.org/records/1473...
#Neuroscience #Biophysics #Thermodynamics
A thermodynamically consistent electro-thermal model for nerve impulse propagation, coupling electrical and thermal dynamics, has been developed.
Full Details here: zenodo.org/records/1473...
#Neuroscience #Biophysics #Thermodynamics