This magnet, which was known as the Keck high-homogeneity magnet, was retired in 2016.

The Split-Florida Helix (SFH) magnet is the first modern powered magnet optimized for advanced optical spectroscopy techniques requiring wide, free-space access to samples.

The SCM2 is a general purpose superconducting magnet with Variable Temperature Insert (VTI) and a 3He Insert. The operating temperature range for the VTI is 1.4 K to 300 K and from 250 mK to 70 K for the 3He Insert.

This magnet is dedicated for optics research. SCM3 is a cold bore system capable of measurements from 4 K to 300 K.

This magnet can be used for both condensed matter science physics and NMR spectroscopy. It is the strongest magnet in the world for NMR.

  • Plan a Lesson


    Everything you need to teach your students core principles of electricity and magnetism.

  • Science Demos

    Tesla coil

    Featuring MagLab educators, these videos illustrating science concepts are appropriate for many students.

  • Activity Book for Younger Kids

    activity books

    This great resource for elementary age children — available in both English and in Spanish — lets them color, connect the dots and word-search as they learn about magnets.

  • Interactive Learning for Older Students

    DC motor

    These tutorials let students see and manipulate electricity and magnetism in ways that are impossible in real life.

What is...


    If your knowledge of magnets ends with posting a to-do list on the fridge, add this to the list: Learn more about magnets!   Read more

    They don't call it super for nothing. Once you get a superconductor going, it'll keep on ticking like the Energizer Bunny, only a lot longer.    Read more

    Come peek inside one of these amazing machines — and learn how they help doctors peek inside their patients.   Read more

    Samuel Taylor Coleridge lends a hand as we explore cryogenics — the art and science of how to get things fantastically frigid.    Read more

    Not only do mass spectrometers accurately weigh molecules — they do it while those tiny particles are careening by faster than Jeff Gordon on steroids.    Read more

This standard 18 MW solenoid magnet produces 31 tesla in a 50-mm bore for a variety of experimental inserts.

This standard 20 MW solenoid magnet produces 35 tesla in a 32-mm bore.

A capacitive dilatometer measures a change of sample dimension by monitoring the capacitance between two parallel plates.

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