Magnetic levitation (MagLev) technologies are rapidly evolving, offering transformative methodologies in materials characterisation, precision engineering and process automation. By balancing ...

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 ...

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 ...

Researchers may have unlocked the potential for gravity-free technology. A new study published in Applied Physics Letters highlights how researchers have made huge breakthroughs in magnetic levitation ...

Recent advancements in magnetic-levitation (maglev) technology harbor the potential to radically transform the landscape of the freight industry. By integrating maglev technology into existing freight ...

In high-temperature superconducting (HTS) maglev systems, the interaction mechanism and analytical theoretical calculation between the onboard YBaCuO high-temperature superconductor and the ground ...

What do you get when you add hardware and software to the principles of magnetic levitation? The likely answer from Jeff Johnson, mechatronics product manager at Beckhoff Automation, U.S., would be: ...

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, ...

This diagram comprehensively reveals the entire process from the input of the reference signal to the achievement of precise control within the system. Within this closed-loop control system, the ...