We are pleased to showcase our hardware in Manchester. At Site 12, you can view our second-generation HTS projected-field magnet and our 20 mm long solenoid. The projected-field magnet has arrived directly from the APS Global Physics Summit in Denver, offering an excellent opportunity to see it in person if you missed it there.
On the stand
2G Projected-Field HTS Magnet: A compact, cryogen-free solenoid producing a >2.0 T projected field from a standard single-phase electrical outlet. It weighs 26 kg, uses under 400 W, and has a ramp time of less than one minute. This platform is designed for easy integration into existing instruments that have strict space, power, or cryogenic limitations.
Ultra Short HTS Solenoid: We are displaying our most compact solenoid model, featuring a 1 tesla central field, a 20 mm depth, and a 17 mm bore diameter, which provides +/- 40° optical access. It is designed to operate with a liquid nitrogen coolant loop for very low vibration, or with a compact, self-contained Stirling-type cryocooler.
Who to talk to
Dr. Taotao Huang, Principal Magnet Designer: Dr. Huang has led electromagnetic and thermal design of HTS-110’s magnet platforms for over ten years, including the 12 T all-HTS neutron scattering magnet delivered to ILL and the 14 T system currently in development for ESS. He holds a PhD in applied superconductivity and heat transfer. If you have questions about field homogeneity, quench protection, coil architecture, or thermal management, he is the ideal person to ask.
Trevor Milburn, UK Sales Agent: Trevor supports our clients across Europe. He is available to discuss project planning, integration timelines, and the steps to move from an initial feasibility discussion to a final purchase order.
What we build
HTS-110 has designed and manufactured cryogen-free superconducting magnets since 2004. Currently, typical systems use 2nd-generation ReBCO HTS wire, operate at 20–77 K on closed-cycle cryocoolers, and require no liquid helium.
Current platforms include:
- Scattering magnets for neutron and X-ray beamlines: Split-pair systems up to 14 T with up to 270° of clear access, rotatable vector field control, and UHV-compatible cryostats. We engineer each magnet to match your specific beamline geometry.
- NMR and NMRD magnets: Variable-field platforms for Fast Field Cycling relaxometry (in collaboration with Stelar, Italy) and high-resolution spectroscopy at 300 and 400 MHz.
- Characterisation systems: Automated BH curve tracing up to 6 T for high-coercivity magnetic materials, and critical current measurement up to 12 T with full angular and temperature dependence.
- HTS current leads: CryoSaver™ leads for highly efficient thermal power transfer into any cryogenic system, available in standard or custom designs.
If you are considering an HTS solution for a new instrument, or upgrading an existing conventional magnet, please visit Site 12. This is a great opportunity to speak with our team and discuss what is possible for your setup.
Back to all Conferences