A New Insight on Physical Phenomenology: a Review

TL;DR

This review explores how properties of Deformed Minkowski space could lead to new physical phenomena, potentially explaining experimental anomalies that challenge standard models, and discusses their implications for future research.

Contribution

It introduces the concept that Deformed Minkowski space properties may account for unexplained experimental results, offering a novel perspective beyond traditional models.

Findings

Potential explanations for anomalies in double-slit experiments

Identification of nuclear metamorphosis phenomena

Effects of geometric vacuum in high-energy conditions

Abstract

After a brief digression on the current landscape of theoretical physics and on some open questions pertaining to coherence with experimental results, still to be settled, it is shown that the properties of the Deformed Minkowski space lead to a plurality of potential physical phenomena that should occur, provided that the resulting formalisms can be considered as useful models for the descrip-tion of some aspects of physical reality. A list is given of available experimental evidences not easy to be interpreted, at present, by means of the more established models, such as the standard model with its variants aimed at overcoming its descriptive limits; these evidences could be candidates to verify the predictions stemming from the properties of the Deformed Minkowski space. The list includes: anomalies in the double-slit-like experiments; nuclear metamorphosis; torsional anten-nas, as well as the physical effect of the "geometric vacuum" (as defined in analogy with quantum vacuum), in the absence of external electromagnetic field, when crossing critical thresholds of energy parameter values, energy density in space and energy density in time.