#USA #Los Angeles #Selection-Stitch Model #Raghu Kulkarni #Dark Energy

AI Audit Reveals Groundbreaking Selection-Stitch Model

In a striking development from the realm of modern physics, a comprehensive AI audit has brought forward the Selection-Stitch Model (SSM), a revolutionary approach spearheaded by Raghu Kulkarni, CEO of IDrive Inc. Unlike traditional cosmological theories that rely on enigmatic constructs like 'Dark Energy' and 'Dark Matter'—as well as over 20 arbitrary parameters—the SSM presents a robust framework aiming to redefine our understanding of the universe's fundamental structure.

The Current State of Physics

Modern physics has heavily depended on various constructs to explain cosmic phenomena. The Lambda-CDM model, accepted widely in cosmology, operates under the assumption that about 95% of the universe is comprised of unobservable dark entities. Additionally, the reliance on uncertain parameters creates complications in achieving a unified understanding of physical laws.

The Role of AI in Physics Research

What sets this new approach apart is the introduction of AI-driven audits conducted by Gemini Pro. This methodology analyzed 20 technical papers related to the SSM to assess its theoretical soundness. Unlike the typical peer review that isolates particular disciplines—wherein cosmologists only review cosmological papers—the AI synthesized knowledge across various disciplines, thereby offering a holistic view of this transformative model.

The audit confirmed that the SSM is capable of objectively deriving fundamental constants from a geometric structure, significantly removing the need for arbitrary parameters that have perpetuated uncertainty in existing models.

Key Findings and Comparisons

The audit demonstrated notable contrasts between the SSM and prevalent physics models. Here are a few highlights:

1. Cosmology and the Expansion Gap
- Current Model (Lambda-CDM): The universe's expansion surpasses predictions by 9%, often dismissed as a measurement error.
- SSM Perspective: Proposes a geometric phase transition of solid lattice structure, predicting an expansion rate consistent with observational data without any adjustments.

2. Dark Energy Explained
- Lambda-CDM: Introduces a 'Cosmological Constant' to fit observations.
- SSM: Describes dark energy as a geometrical stress arising from a lattice restoring its own voids, providing dynamic properties that align with new observational data from 2025.

3. Understanding Particle Behavior
- Standard Model: Relies on arbitrary inputs to explain particle masses.
- SSM Proposition: Asserts that particle mass is a function of geometric disturbance in vacuum nodes, establishing a compelling correlation between structure and mass without arbitrary assignments.

4. General Relativity and its Limitations
- Traditional View: Space is treated as a continuous manifold leading to singularities.
- SSM's View: Space is modeled as a discrete lattice, which eliminates singularities and provides new insights into gravitational effects and black hole phenomena, enabling theories for cosmic information preservation.

5. Revisiting Dark Matter
- Physics has long sought elusive particles like WIMPs to explain dark matter.
- The SSM redefines dark matter as geometric errors, challenging the need for creativity in theoretical particle predictions.

Conclusion: The Power of Simplicity

This audit's outcome indicates that the Selection-Stitch Model introduces groundbreaking simplicity into complex elements of physics by reducing reliance on multiple arbitrary parameters to a singular geometrical interpretation.

Raghu Kulkarni’s insights, rooted in advanced geometry and tensor networks, advocate for a transformative path in bridging cosmology and quantum mechanics, offering a new lens through which we can view the universe. As the scientific community continues to evaluate these findings, the SSM promises to catalyze discussions around the future of theoretical physics and beyond.

By empowering individuals to independently reproduce these findings, the SSM framework prioritizes transparency and open dialogue in scientific research, enhancing its credibility and encouraging further exploration in the field.

About Raghu Kulkarni

Raghu Kulkarni is an influential figure not only as the CEO of IDrive Inc. but also as an independent theoretical physics researcher. His work consistently strives for harmony between the principles of cosmology and quantum mechanics, steering the discourse in modern physics towards more integrated and streamlined frameworks that simplify our complex understanding of the universe.