For decades, witnesses have described UFOs performing extraordinary feats: manipulating objects from a distance, executing rapid directional changes, and seemingly defying the laws of physics. Groundbreaking research from North Carolina State University has now developed a material that demonstrates strikingly similar capabilities, raising fascinating questions about whether we are beginning to uncover the technical principles behind UFO phenomena.

This revolutionary material, a magnetic kirigami metasheet, can lift objects 40 times its weight without physical contact, reconfigure its shape almost instantly, and move with precision in any direction. All of this is achieved through the careful control of magnetic fields, a concept that has long been associated with reports of unidentified craft and unexplained encounters. These developments represent a significant step forward in understanding how advanced systems might function.

Historical accounts of UFO activity highlight similar effects. During the 1957 Levelland, Texas sightings, multiple vehicles were reportedly disabled and lifted by an unseen force in the presence of strange, glowing objects. Witnesses described vehicles stalling as an unknown energy seemed to take hold. The 1975 Walton abduction case also included descriptions of objects moving without physical touch, apparently controlled by an energy field emitted by a hovering disc. While these incidents remain unexplained, the parallels with this new material are undeniable, as the metasheet can transport objects through magnetic interactions alone.

Military and civilian reports have long described craft capable of rapid, precise movements that defy inertia. This new material achieves a comparable level of responsiveness, capable of changing shape and direction in as little as two milliseconds. Such abilities mirror the maneuverability reported in military pilot encounters, where unidentified craft make sharp turns and sudden stops that seem to defy conventional physics. While the metasheet is not a direct replication of these capabilities, it demonstrates that near-instantaneous responses to external fields are achievable with advanced engineering.