The vision
Revolutionizing Magnet Technology: The Compact HTS Pulsed Magnet
Superconducting magnets have long been a crucial technology in medicine, research, and industry, yet their high costs, large size, and complex cooling requirements have limited their widespread use. A groundbreaking new project aims to change this by developing a compact high-temperature superconducting (HTS) pulsed magnet—a revolutionary solution that combines efficiency, portability, and affordability.
A New Approach to Superconducting Magnets
This innovative HTS system leverages advanced pulsed magnetization technology, enabling the generation of intense magnetic fields up to 3–4 Tesla while significantly reducing energy consumption. Unlike traditional low-temperature superconducting magnets that require expensive cryogenic cooling, the new HTS magnet operates with a cryocooler, eliminating the need for liquid helium and drastically cutting operating costs.
Key Advantages
Compact & Portable: Smaller than conventional superconducting magnets, making it more versatile for various applications.
Cost-Effective: A fraction of the price of existing superconducting magnets, making high-field applications more accessible.
Energy Efficient: Operates using pulsed magnetization, reducing power consumption and making it more sustainable.
High-Field Performance: Generates significantly higher fields than permanent magnets, unlocking new possibilities in research and industry.
Expanding Possibilities Across Industries
Medicine & Biotechnology: Improving cancer treatments with magnetic drug delivery (MDT) and other medical applications.
Research & Development: Offering academic and industrial labs an affordable, high-field magnet for NMR, protein crystallization, and quantum computing.
Industry & Manufacturing: Enhancing magnetic separation in recycling and material processing.
Outlook
The future of superconducting magnets is here—smaller, smarter, and more powerful than ever. This HTS pulsed magnet is set to redefine possibilities in research, medicine, and industry, making high-field applications more accessible than ever before.
