Iasoberg™ Foundation
The core webinar presentation — "The Allais Effect, The Iasoberg™ Technology, The Future" — introducing the Technology's theoretical basis, configurations, and predictive framework.
Download PPTAn early empirical study correlating Iasoberg™ output with NOAA severe wind event data across the continental United States, establishing the Technology's predictive foundations.
Download PDFExamines the PNGWSATGA Plane — connecting the Papua New Guinea and Western South American Terrestrial Gravitational Anomalies — and its relationship to the observed Allais Effect.
Download PDFThe Allais Effect & Gravitational Theory
A foundational theoretical paper questioning conventional gravitational law in light of anomalous eclipse observations, providing context for the Iasoberg™ Technology's gravitational field distortion hypothesis.
Download PDFAnalyzes where on Earth's surface the Allais Effect manifests, exploring geographic and gravitational factors that determine the spatial distribution of the anomalous pendulum deflections.
Download PDFExplores the theoretical bridge between the Allais Effect anomaly and the residual arc predicted by General Relativity during solar eclipses, examining potential unified explanations.
Download PDFInvestigates the secular increase in the astronomical unit and whether gravitational anomalies observed during solar eclipses may provide a mechanism for this observed expansion.
Download PDFSolar Eclipse Observations
Documents gravity measurements taken during the March 1997 Mohe total solar eclipse. Considered the most significant Allais Effect experiment to date, providing key empirical evidence for anomalous gravitational behavior during eclipses.
★ Most significant Allais Effect experiment on record
Download PDFHistorical observations from the 1970 solar eclipse using a torsion pendulum, documenting anomalous deflections that contributed to the body of evidence underpinning the Allais Effect.
Download PDFA multi-instrument study of the August 2008 solar eclipse, correlating anomalous observations across independent measurement systems and geographic locations.
Download PDFThe Torsind Instrument
Describes the Torsind, a highly sensitive rotational sensor designed to detect anomalous gravitational and field effects, including those associated with the Allais Effect and solar alignments.
Download PDFDetails applications of the Torsind in non-conventional astronomical contexts, particularly its sensitivity to gravitational field distortions not captured by standard instruments.
Download PDFExplores findings suggesting the Torsind may be sensitive to an energy source not yet accounted for in conventional physics — potentially related to the gravitational field distortions at the heart of the Iasoberg™ Technology.
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