The HTS-110 Helmholtz Coil Magnet System provides a high-uniformity magnetic environment without the complexity or operational constraints of liquid cryogens. This system is engineered for researchers requiring large homogeneous volumes and exceptional transverse or axial access.

By delivering a  higher steady-state field than traditional copper-coil (Cu) Helmholtz pairs, this HTS magnet system offers a powerful, low-maintenance alternative for advanced magnetic research.

• Sensor Characterisation: Calibration of Hall effect sensors, fluxgates, and magnetometers in a stable, uniform field.
• Material Science: Magneto-optical studies and transport measurements where sample access is paramount.
• Biotechnology: Magnetic bead separation and the study of magnetic field effects on biological samples.
• Geophysical Research: Simulation of planetary magnetic fields and rock magnetism studies.
• In-Situ Analysis: Integration with X-ray or Neutron beamlines for scattering experiments.

Superior Steady-State Performance: Reaches higher field strengths than equivalent Cu-coil systems, maintaining 0.3 Tesla (3000 Gauss) without equivalent resistive heating or power consumption of water-cooled copper.

True Cryogen-Free Architecture: No liquid helium or nitrogen required. Integrated mechanical cooling reduces safety risks, simplifies laboratory infrastructure, and significantly lowers long-term operational costs.

Large Transverse Access: Features a 180 mm x 80 mm transverse access zone, ideal for complex sample environments, optical diagnostics, or large-scale integration.

Low Fringe Field & Weight: Optimised magnetic design results in an exceptionally low fringe field < 10 Gauss at 30 cm axial distance), making it safe for standard laboratory environments.

High Field Homogeneity: Precision-aligned coil geometry ensures high uniformity < 0.1% over a 50 mm x 20 mm sample volume.

Fast Ramping & Dynamic Control: Advanced HTS coil management allows for rapid field changes—reaching full field in just 25 seconds.