HTS-110 will attend ASC 2026 to share updates on our cryogen-free HTS magnet systems. We welcome conversations around applied superconductivity for research and industrial applications.
Who will be available at booth 1929?
Donald Pooke — CEO and co-founder of HTS-110. Donald has led the company since its inception in 2004, overseeing the development and commercialisation of HTS magnet systems for research facilities and industry worldwide.
Nathan Yates — Mechanical Design Engineer. Nathan works on the mechanical and cryogenic design of HTS magnet platforms.
View the current floor plan
Applications we’re looking to discuss at APS
- Neutron and X-ray Beamlines. Split-pair scattering magnets to 14 T with up to 270° unobstructed access. Rotatable in-plane vector field control. UHV-compatible cryostats.
- Superconductor Research and Characterisation. The SuperCurrent Ic Measurement System provides automated critical current measurement with transport current over 1200 A, field options from 5–12 T, sample rotation 0–360°, and temperature below 15 K.
- Magnetic Materials Characterisation. The 6 T HTS Magnetometer delivers fast, automated BH curve tracing for high-coercivity magnetic materials with up to 30 mm sample dimensions and ~8 minute measurement cycles.
- Fusion Energy and Plasma Science. HTS enables stronger magnetic fields than LTS in more compact geometries. We’re advancing towards 20 T-class split pair magnets and high-field solenoids using second-generation HTS wire. Ask us about our magnet development programme.
HTS-110 has been designing and manufacturing HTS magnet systems since 2004, our systems typically operate cryogen-free at 20–77 K using integrated cryocoolers, thus eliminating liquid helium dependence entirely.
If you’re evaluating whether an HTS magnet could replace or upgrade a conventional system in your lab or facility, contact us, or talk to us at APS.
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