David Alzofon
David Alzofon dedicated much of his life to advancing and preserving one of the most audacious scientific legacies of the 20th century: the pursuit of gravity control. His work was inseparable from that of his father, Dr. Frederick Alzofon, whose career bridged some of the greatest minds in physics and mathematics.
Dr. Frederick Alzofon studied under J. Robert Oppenheimer, relativity expert Victor Lenzen, and mathematics pioneer Griffith C. Evans at UC Berkeley in the 1940s and 1950s. Over the course of his distinguished career, Frederick became a world-class authority on optics and heat conduction, an aerospace scientist, and the author of more than forty papers and two books in advanced mathematical physics. With over thirty years in aerospace and an unrivaled grasp of theoretical physics, he was well-positioned to propose a radical new approach to gravity control.
David Alzofon took on the mantle of preserving, clarifying, and expanding his father’s work.
Stewardship of a Family Legacy
David Alzofon has worked diligently to help carry on a family legacy of gravity control research that began with his father, Dr. Frederick Alzofon – a student of J.R. Oppenheimer, relativity expert Victor Lenzen, and mathematics guru Griffith C. Evans at Cal Berkeley in the ’40s and ’50s. As an acknowledged world-class authority on optics and heat conduction, an aerospace scientist with a distinguished thirty-year career, and the author of over forty papers and two books on advanced topics in mathematical physics, he was fully qualified to make such a discovery.
David has spoken at length about his father’s published work, and done additional research into previously unpublished papers and recorded dialogs with his father to present gravity control in simple terms accessible to most people, even if they lack a scientific background. His mission was not only to preserve the research but also to make it understandable to new generations who might continue exploring its possibilities.
Exploring Dynamic Nuclear Polarization
A key theme in both his father’s and David’s work was Dynamic Nuclear Polarization (DNP), a principle central to their gravity-control hypothesis. By exploring how nuclear spins could be manipulated through electromagnetic resonance, the Alzofons believed they had uncovered a gateway to altering the very fabric of space-time. David played an important role in bringing clarity to these ideas, often reframing dense physics into accessible language for general audiences while still engaging with scientists who shared his curiosity.
Bridging Science and the Unknown
In addition to his work on gravity research, David Alzofon held a lifelong interest in the UFO phenomenon. He viewed unidentified aerial phenomena not as fringe curiosities, but as possible demonstrations of advanced propulsion technologies—perhaps rooted in the same principles of physics his father had pioneered. His openness to this possibility kept him engaged with both mainstream and alternative scientific communities, serving as a bridge between them.
Making Science Accessible
Through lectures, writing, and public appearances, David tirelessly worked to ensure his father’s ideas would not be lost to history. He believed strongly that gravity control was not merely a scientific curiosity but a potential technological revolution—one that could transform aerospace, energy, and human understanding of the universe. His ability to distill complex physics into everyday concepts made him a gifted communicator and educator, dedicated to inspiring both scientists and laypeople alike.
Legacy
David Alzofon’s contributions stand as an important chapter in the larger narrative of frontier science. By preserving and sharing his father’s research, expanding upon it with his own insights, and linking it to wider cultural questions about UFOs and advanced aerospace propulsion, he ensured that the dream of gravity control would remain alive for future thinkers. His work represents not just the continuation of a family legacy, but a beacon for anyone willing to challenge the limits of known science in pursuit of the extraordinary.