Redefining the Foundations of Quantum Reality
From the QuEST theory unifying spacetime and quantum mechanics to computational drug design and cancer research — bridging fundamental physics with real-world life science applications.
Our Focus Areas
From theoretical foundations to drug discovery and cancer biology
Theoretical Physics
QuEST theory models spacetime as quantum information with testable predictions for LISA and CMB missions.
Explore QuEST Theory →Lifesciences & Drug Design
Applying fixed-point string theory to rapidly design drug candidates for neglected diseases affecting 270 million people.
View Drug Pipeline →Cancer Research
Reframing malignancy as a phase transition through informational isolation analysis across 47,000+ cells.
Read Our Findings →Latest Research
Recent publications and insights from our research
Fixed-Point String Theory Rapid Drug Design
Five therapeutic candidates for neglected African diseases developed through a computational platform with QED scores of 0.804-0.865.
Read Paper →Pan-Cancer Evaluation of Informational Isolation
Introducing a transcriptome-derived metric that reframes malignancy as a phase transition across breast, lung, colorectal, and kidney cancers.
Read Paper →The Vacuum Energy Problem
Exploring how QuEST theory addresses the 10120 discrepancy between quantum field theory predictions and cosmological observation.
Read Post →Our Mission
Quantum Geometrics Lab is dedicated to advancing fundamental understanding of reality through the Quantized Energy Space-Time (QuEST) framework, while translating theoretical insights into real-world applications in drug design and cancer research.