Dr. Christian Rudolf, an expert in parallel kinematics and magnetic drives, provides insights into PI's journey in developing magnetic levitation solutions for the semiconductor industry. “What makes ...

Researchers at the Quantum Machines Unit at the Okinawa Institute of Science and Technology (OIST) are studying levitating materials—substances that can remain suspended in a stable position without ...

China is racing to build a new kind of train that does not just rival jetliners, it threatens to redefine what “high speed” ...

We explain how the Hyperloop could move people at speeds up to 480 kilometers per hour. The system works by reducing air ...

Magnetic levitation systems and actuators represent a significant advance in precision motion control, utilising magnetic forces to suspend and manoeuvre objects without physical contact. These ...

Five members of the Cornell Hyperloop project team competed at the 2025 Hyperloop Global Conference, hosted at Queen’s University in Ontario, Canada, this past summer. Among top international teams, ...

Researchers from the Southwest Jiaotong University in China have developed cars that use magnetic levitation technology to float above a track. The eight vehicles were recently tested in Jiangsu along ...

The moon has one-sixth the gravity of the earth so magnetic levitation can use 35 times less power to do the same work. NASA will leverage this to make thin sheets that can rolled out to make lunar ...

The field of advanced propulsion and gravity manipulation has long captivated the curiosity of scientists, engineers, and technology enthusiasts around the globe. While progress in this unconventional ...