Products
technology that works as hard as you do
At magnitude, we design and manufacture high-performance superconducting magnets that empower cutting-edge research and emerging quantum technologies.
Each system is engineered for precision, stability, and scalability from compact laboratory setups to complex application driven systems.
Our product portfolio combines proven NbTi technology with modern design optimization, offering both standard configurations and tailor-made solutions for demanding experimental needs.
1D - Sample Magnets
Designed for applications requiring strong, uniform magnetic fields along a single axis, our 1D Sample Magnets combine reliability and performance in a compact form factor. Leveraging NbTi superconducting technology, they are ideal for a wide range of research and test environments.
Key Specifications
• Field strengths from 1 T to 9 T
• Standard and custom geometries available
• Typical inner diameters (ID): 25 mm – 100 mm
• Optimized thermal and mechanical design for efficient cooldown and operation
These magnets deliver a robust and consistent field profile, perfectly suited for spectroscopy, transport measurements, and material characterization experiments.
ADR Magnets
Our ADR (Adiabatic Demagnetization Refrigerator) Magnets are purpose-built for ultra-low temperature experiments, offering exceptional field homogeneity and operational flexibility.
Using high-quality NbTi windings and advanced coil design, these magnets provide stable performance and rapid response in cryogenic environments.
Key Specifications
• Typical field strengths from 4 to 6 T with large homogeneity region
• Stray-field compensation available
• Fast ramp rates up to 1 T/min
• Optimized for ADR and cryogenic systems
Engineered for precision and speed, our ADR magnets enable faster cycles and improved experimental throughput, ideal for next-generation quantum and low-temperature research platforms.
3D – Sample Magnets
Our 3D Sample Magnets deliver full three-axis magnetic field control, enabling complex experimental configurations and high spatial precision.
Built on robust NbTi technology, these systems provide the flexibility needed for vector field studies, material science, and quantum device testing.
Key Specifications
• Field configurations from 1 / 1 / 1 T up to 6 / 1 / 1 T
• Standard and custom geometries available
• Typical inner diameters (ID): 50 mm – 100 mm
• Field stability and alignment precision across all axes
These multi-axis magnets redefine experimental control providing the foundation for advanced magnetic field manipulation in modern cryogenic and quantum laboratories.
