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

A 0.5-tonne superconducting magnet recently hovered silently inside a 5-meter-wide vacuum chamber, which marked ...

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, ...

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: ...

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

From DIY levitation tricks to clever braking systems, these swirling paths of electrons keep finding new ways to surprise and inspire.

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 ...

The National Academies of Sciences, Engineering, and Medicine have been asked to conduct a study on high-magnetic-field science and technology. The primary goal of the Committee on the Current Status ...

Magnetic resonance imaging (MRI) and magnetic resonance spectroscopy (MRS) at ultrahigh magnetic fields in humans and animals is a uniquely important tool to advance the understanding of function and ...