What question did this study set out to answer?

The aim is to establish a dynamical mechanism for inflation using Quadratic Quantum Gravity without an inflaton field.

April 20, 2026Open Access

Emergent Inflation from Quadratic Quantum Gravity via Replicator Dynamics

Key Points

The aim is to establish a dynamical mechanism for inflation using Quadratic Quantum Gravity without an inflaton field.
Proposes a quantum replicator equation operating on microscopic geometric configurations.
Utilizes fuzzy-logic regularization to prevent singularities.
Analyzes the implications for observable cosmic phenomena including the tensor-to-scalar ratio.
High-curvature modes lead to approximately 50-60 e-folds of inflation.
Low-curvature general relativity configurations act as a stable infrared attractor.
Highlights connections between quantum-gravitational dynamics and observable cosmology.

Abstract

This preprint proposes a dynamical mechanism for inflation inside Quadratic Quantum Gravity (QQG). Instead of introducing an inflaton field, the model uses a quantum replicator equation acting on microscopic geometric configurations. High‑curvature modes dominate in the UV and naturally generate ~50–60 e‑folds of inflation, while low‑curvature GR‑like configurations become the stable IR attractor. The framework connects QQG’s built‑in inflationary behavior with an underlying evolutionary process, incorporates fuzzy‑logic regularization to avoid singularities, and discusses implications for the tensor‑to‑scalar ratio r≳0.01, reheating, and stability. The goal is to provide a clean, self‑contained conceptual mechanism linking quantum‑gravitational microdynamics to observable cosmology.

Emergent Inflation from Quadratic Quantum Gravity via Replicator Dynamics

Key Points

Abstract

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