What question did this study set out to answer?

The study aims to evaluate the effectiveness of the Discrete Dimensional Inheritance Model in resolving Hubble tension and galactic rotation issues.

March 10, 2026Open Access

The Discrete Dimensional Inheritance Model (DDIM): A Stochastic Resolution to Hubble Tension and Galactic Rotation via Discrete Informational States

Key Points

The study aims to evaluate the effectiveness of the Discrete Dimensional Inheritance Model in resolving Hubble tension and galactic rotation issues.
Utilized a Discrete Dimensional Inheritance Model framework.
Conducted 1,000-run Monte Carlo simulations to test the model's predictions.
Established a fixed probability of finiteness at each simulation step.
Demonstrated a natural phase transition into a stable physical state.
Verified the model's potential to resolve Hubble tension effectively.
Showed improved alignment with observed galactic rotation curves.

Abstract

The Discrete Dimensional Inheritance Model (DDIM) proposes that the universe is an emergent 3D Graft resulting from a sequence of discrete informational inheritance steps. By establishing a fixed 5.5% Probability of Finiteness (p = 0.055) at each step, the model identifies a natural phase transition into a stable physical state. This paper presents the results of 1,000-run Monte Carlo simulations verifying the model’s ability to resolve the Hubble Tension and galactic rotation curves through the mechanism of informational viscosity.

The Discrete Dimensional Inheritance Model (DDIM): A Stochastic Resolution to Hubble Tension and Galactic Rotation via Discrete Informational States

Key Points

Abstract

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