Pioneering the Future of Research & Technology
From theoretical physics to next-generation algorithms, Blake Burns Technologies Inc. is redefining the boundaries of innovation.
Our Products
Applied technology from our research.
LivingAI
Unlock the full potential of artificial intelligence with LivingAI. Your ultimate all-in-one digital workspace designed to streamline your life and supercharge your productivity. Whether you need real-time answers from the live web, stunning high-definition visuals created in seconds, or deep analysis of your complex PDF, Excel, and PowerPoint files, LivingAI handles it all with blazing speed. Secure, private, and effortlessly powerful, this isn't just a chatbot; it is a creative studio, a research powerhouse, and a data analyst wrapped into one sleek interface. Don't just browse the future, live it.
Visit LivingAIFreedom Chess
Pure Strategy. No Limits. Free online Chess vs AI and local 2 player multiplayer.
Visit Freedom ChessOur Research
A selection of our publications and theoretical explorations in physics, algorithms, and cybersecurity.
Research Archive
Phenomenological and Geometric Implications of the Six-Dimensional Directional Time (6DT) Framework on Einsteinian Kinematics
Challenging the conventional four-dimensional view of the universe, this paper investigates the phenomenological consequences of a six-dimensional spacetime manifold. We revisit classic Special Relativity scenarios to demonstrate how a multi-dimensional time structure could subtly alter the synchronization of clocks and the speed of light based on local mass distributions. This work bridges high-level theoretical physics with practical constraints, utilizing Hughes-Drever-type experiments to define the precise limits where these advanced geometric concepts remain consistent with observed reality.
Read Paper →An Exhaustive Theoretical and Phenomenological Analysis of Geometrically-Induced Mass Variation (GIMV)
Our latest research provides an exhaustive theoretical and phenomenological analysis of the Geometrically-Induced Mass Variation (GIMV) framework. This internally consistent theory posits that a particle's fundamental mass is not a fixed constant, but a dynamic property that can change in response to extreme gravitational environments.
Read Paper →The Unification of Gravity and Mass Generation via Six-Dimensional Vector-Time
This research presents the Six-Dimensional Vector-Time (6DT) framework, a unified field theory proposal that extends standard spacetime with a local three-dimensional internal time vector coupled directly to gravitational tidal curvature.
Read Paper →A 6DT-Stoke Framework for Geometrically-Induced Mass Variation (GIMV)
Our latest research paper introduces Geometrically-Induced Mass Variation (GIMV). This paper challenges the long-held assumption that a particle's mass is a fixed, fundamental constant. We propose that the mass of a nucleon is dynamic and can be altered by the local gravitational tidal field.
Read Paper →A Vectorized Time Model in a 6D Spacetime: 6DT
This paper introduces 6DT, a speculative model where time is a three-component vector. It explores how this "vector time" couples with spatial dimensions based on gravitational potentials.
Read Paper →A Relativistic Test of the 6DT Spacetime Framework
This report proposes a practical, ground-based experiment to test the 6DT framework utilizing a long-baseline, phase-stabilized link between two optical atomic clocks.
Read Paper →Developing 6DT and directional time theory: A framework and notes
We derive the complete 6D Einstein field equations for static matter sources and construct a comprehensive, single-parameter Bayesian global-fit pipeline.
Read Paper →Implications of Stoke's Momentum-Acceleration Relationship
This paper explores the "Stoke" equation, a novel relationship between momentum and its rate of change, applying it to black hole dynamics and dark matter.
Read Paper →The Stoke-6DT Framework: Analysis of Anomalous Power
Unifies our proprietary "6DT" (six-dimensional vectorized time) model with the "Stoke" power concept. The resulting synthesis provides a rigorous mathematical proof that mass and energy can be directly exchanged between our familiar 4D spacetime and a higher-dimensional "bulk".
Read Paper →Darksort: A New Linear Sorting Algorithm
Presenting "Darksort," a novel, non-comparison sorting algorithm for integers achieving O(n) linear time and space complexity.
Read Paper →Modeling in a 2^N Binary Feature Space
This work explores a modeling technique using a finite set of N binary features, which defines a 2^N state space, useful for stock market analysis and game theory.
Read Paper →Towards Unhackable Computing
A critical examination of modern cybersecurity, analyzing foundational weaknesses from OS-level trust issues to future challenges of quantum computing.
Read Paper →About Our Approach
Founded by researcher Blake Burns, Blake Burns Technologies Inc. operates at the intersection of theoretical science and applied technology. We believe that the most significant breakthroughs come from a deep, first-principles understanding of complex systems.
Our work is driven by curiosity, rigor, and a commitment to solving foundational problems. Whether we are exploring the structure of spacetime, designing new computational algorithms, or hardening digital infrastructures, our goal is to build a more capable and secure future.
Let's Collaborate
We are always interested in new challenges and collaborations. If you have a complex problem or an idea you'd like to discuss, please get in touch.
[email protected]