What question did this study set out to answer?

The goal is to develop a mathematical framework for understanding the universe as an interference phenomenon in higher dimensions.

March 18, 2026Open Access

Interference Vacuum: A Mathematical Framework for the Model and a Research Program

Key Points

The goal is to develop a mathematical framework for understanding the universe as an interference phenomenon in higher dimensions.
Introduced the concept of a 3-brane within a higher-dimensional bulk.
Developed geometric foundations for interpreting quantum fluctuations as interference.
Identified five key research gaps to advance predictive theories.
Established the framework as a model for the interference of vacuum projections.
Described the false vacuum as a region of enhanced interference.
Proposed new universe birth as breakthroughs of projections from half-spaces.

Abstract

This paper presents a mathematical framework for the "Interference Vacuum" concept, where our Universe is a 3-brane embedded in a higher-dimensional bulk, dividing it into two half-spaces. The observed vacuum is interpreted as the interference of projections from processes occurring in these half-spaces. The model provides geometric foundations for quantum fluctuations, treats the false vacuum as a region of enhanced interference, and describes new universe birth as "breakthroughs" of projections. The work does not claim to be a complete theory; instead, it explicitly identifies five fundamental research gaps (nature of the bulk field, projection kernels, breakthrough dynamics, tunneling mechanism, and parameter calibration) that must be filled to develop a predictive theory.

Interference Vacuum: A Mathematical Framework for the Model and a Research Program

Key Points

Abstract

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