View the latest stories in breakthrough propulsion and gravity research—from electrogravitics and inertial drives to superconductors, DNP/Alzofon, UAP detection, warp metrics, and energy generation. Each section collects explainers, interviews, lab notes, replications, and critical reviews to help builders turn bold ideas into testable hardware.
Bob Lazar’s Sport Model UFO: The Science and Engineering Claims
For decades, Bob Lazar has insisted that the real mystery was never just a UFO in the Nevada desert, but the technology it contains: a compact reactor and gravity-based propulsion system built into a disk-shaped craft…
Viktor Grebennikov’s Beetle Wing Levitation
Viktor Grebennikov was a Siberian entomologist with a gift for seeing grandeur in the smallest forms of life who claimed that the hidden underside of an beetle wing revealed a microscopic architecture so extraordinary…
From Ripples to Rectifiers: A Guide To Graphene Energy Harvesters
Graphene energy harvesters explore the possibility that suspended graphene can turn thermal motion into measurable current. Over roughly the last decade, researchers have moved from simply observing that freestanding…
Can Zero-Bias Diodes Harness Zero-Point Energy?
If a common zero-bias diode can act as a one-way gate for electricity, could an array of them convert zero-point energy fluctuations into a flow of power? In Dr. Tom Valone’s telling, the idea opens a provocative…
The GEM Effect: New Evidence for Electromagnetic Gravity Modification?
Dr. John Brandenburg reports that an electromagnetic device—a roughly 170‑gram coil taken from a miniature electric motor and driven with Tesla-style three‑phase AC—shows an apparent drop in weight of about 0.15 grams…
Mars In 30 Days? Rosatom’s New Plasma Drive Could Make It Possible
In a vacuum chamber on Earth, a bright pulse of plasma can look like a science exhibit. In space, that same controlled violence could become a new kind of highway: a steady, efficient push that keeps working long after…
Warp Drives and the Multiverse
For most of human history, “going farther” has meant going faster—first with sails, then with steam, then with engines that burn and roar. In Daniel Davis’s lecture on warp drives and the multiverse, that familiar story…
Warp-Assisted Hypersonics: Engineering the Shock Layer
At the edge of the atmosphere’s ordinary rules, air stops behaving like air. Molecules tear apart, electrons slip free, and a hypersonic vehicle acquires a luminous boundary layer that can swallow radio signals and…
The One-G Standard for Human Spaceflight
A One-G Standard for human spaceflight would do something deceptively simple: make the cruise phase feel Earth-normal. With constant one-g acceleration, “artificial gravity” comes from thrust—not heavy, complex rotating…
Direct Fusion Drive to Mars: The Starfire Architecture for Fast Human Transit
Sixty-four days to Mars isn’t a slogan—it’s a design constraint disguised as a destination. In Layla Mohsen’s telling, Princeton Satellite Systems’ Direct Fusion Drive concept isn’t chasing speed for bragging rights;…