Topotrophic Quantum Relativity
@erikncalloway.bsky.social
The Universe didn't explode; it crystallized. Proposing a unified geometric framework: Gravity = Refraction. Matter = Topology. Dark Matter = Lattice Tension.
For the W-Boson, this stiffness causes the decay electron to rebound with +76 MeV more momentum than expected.
The "anomaly" isn't a mistake. It is the vacuum pushing back.
The Data:
High-precision measurement of the W boson mass with the CDF II detector (Science, 2022)
doi.org/10.1126/scie...
The "anomaly" isn't a mistake. It is the vacuum pushing back.
The Data:
High-precision measurement of the W boson mass with the CDF II detector (Science, 2022)
doi.org/10.1126/scie...
High-precision measurement of the W boson mass with the CDF II detector
Analysis of the data collected at the Tevatron particle collider finds that the W boson is heavier than expected.
doi.org
December 30, 2025 at 10:26 AM
For the W-Boson, this stiffness causes the decay electron to rebound with +76 MeV more momentum than expected.
The "anomaly" isn't a mistake. It is the vacuum pushing back.
The Data:
High-precision measurement of the W boson mass with the CDF II detector (Science, 2022)
doi.org/10.1126/scie...
The "anomaly" isn't a mistake. It is the vacuum pushing back.
The Data:
High-precision measurement of the W boson mass with the CDF II detector (Science, 2022)
doi.org/10.1126/scie...
This stiffness makes it look like particles have "extra mass" to our detectors.
But it's actually decay particles rebounding off this stiffer lattice with more momentum than expected.
But it's actually decay particles rebounding off this stiffer lattice with more momentum than expected.
December 30, 2025 at 10:26 AM
This stiffness makes it look like particles have "extra mass" to our detectors.
But it's actually decay particles rebounding off this stiffer lattice with more momentum than expected.
But it's actually decay particles rebounding off this stiffer lattice with more momentum than expected.
🟢Standard physics assumes a linear vacuum that doesn't stiffen under load.
🔴TQR treats the vacuum as a material.
➡️When the vacuum is under load - whether from a galaxy's mass or the energy of a particle collider event - the lattice tightens.
🔴TQR treats the vacuum as a material.
➡️When the vacuum is under load - whether from a galaxy's mass or the energy of a particle collider event - the lattice tightens.
December 30, 2025 at 10:26 AM
🟢Standard physics assumes a linear vacuum that doesn't stiffen under load.
🔴TQR treats the vacuum as a material.
➡️When the vacuum is under load - whether from a galaxy's mass or the energy of a particle collider event - the lattice tightens.
🔴TQR treats the vacuum as a material.
➡️When the vacuum is under load - whether from a galaxy's mass or the energy of a particle collider event - the lattice tightens.
This is a constructive proposal for a Unified Field Theory. It unifies Gravity, c, and the Standard Model into a single material framework.
Read the full paper here: doi.org/10.5281/zeno... Let's fix the foundation.
#Physics #Cosmology #QuantumGravity #UnifiedTheory
Read the full paper here: doi.org/10.5281/zeno... Let's fix the foundation.
#Physics #Cosmology #QuantumGravity #UnifiedTheory
doi.org
December 28, 2025 at 4:13 PM
This is a constructive proposal for a Unified Field Theory. It unifies Gravity, c, and the Standard Model into a single material framework.
Read the full paper here: doi.org/10.5281/zeno... Let's fix the foundation.
#Physics #Cosmology #QuantumGravity #UnifiedTheory
Read the full paper here: doi.org/10.5281/zeno... Let's fix the foundation.
#Physics #Cosmology #QuantumGravity #UnifiedTheory
We don't need a "Dark Sector." We need a Phase Transition. The Universe didn't explode; it Crystallized. The "Big Bang" was the freezing of the vacuum. The "Axis of Evil" is the grain of the crystal.
December 28, 2025 at 4:13 PM
We don't need a "Dark Sector." We need a Phase Transition. The Universe didn't explode; it Crystallized. The "Big Bang" was the freezing of the vacuum. The "Axis of Evil" is the grain of the crystal.
"Dark Matter" is just the structural overhead of the lattice. Geometry dictates a 5:1 ratio of Structure (Edges) to Signal (Nodes). This predicts the Radial Acceleration Relation (RAR) perfectly without invisible halos.
December 28, 2025 at 4:13 PM
"Dark Matter" is just the structural overhead of the lattice. Geometry dictates a 5:1 ratio of Structure (Edges) to Signal (Nodes). This predicts the Radial Acceleration Relation (RAR) perfectly without invisible halos.
Gravity isn't curved nothingness. It's Refraction. Mass (a topological knot) pulls on the vacuum lattice. This tension compresses the nodes, increasing the Refractive Index (n). Light bends because it moves slower in denser geometry. n = 1 + 2GM/rc^2.
December 28, 2025 at 4:13 PM
Gravity isn't curved nothingness. It's Refraction. Mass (a topological knot) pulls on the vacuum lattice. This tension compresses the nodes, increasing the Refractive Index (n). Light bends because it moves slower in denser geometry. n = 1 + 2GM/rc^2.
Dark Matter? Invisible particles we can't find. Dark Energy? Magic fluid we can't explain. The Axis of Evil? A cosmic alignment that shouldn't exist. TQR solves all three with one geometric postulate: The vacuum is a discrete, tetrahedral lattice.
December 28, 2025 at 4:13 PM
Dark Matter? Invisible particles we can't find. Dark Energy? Magic fluid we can't explain. The Axis of Evil? A cosmic alignment that shouldn't exist. TQR solves all three with one geometric postulate: The vacuum is a discrete, tetrahedral lattice.
This "Steep Decline" is the geometric signature of vacuum elasticity.
TQR models space as a lattice, predicting your exact anomalies:
1. Shallow Core: Lattice saturation = no cusp
2. Steep Decline: Tension relaxes away from the mass = no halo
doi.org/10.5281/zeno...
TQR models space as a lattice, predicting your exact anomalies:
1. Shallow Core: Lattice saturation = no cusp
2. Steep Decline: Tension relaxes away from the mass = no halo
doi.org/10.5281/zeno...
December 28, 2025 at 11:10 AM
This "Steep Decline" is the geometric signature of vacuum elasticity.
TQR models space as a lattice, predicting your exact anomalies:
1. Shallow Core: Lattice saturation = no cusp
2. Steep Decline: Tension relaxes away from the mass = no halo
doi.org/10.5281/zeno...
TQR models space as a lattice, predicting your exact anomalies:
1. Shallow Core: Lattice saturation = no cusp
2. Steep Decline: Tension relaxes away from the mass = no halo
doi.org/10.5281/zeno...