The National High Magnetic Field Laboratory

Main Menu
  • User Facilities
    • DC Field
    • Electron Magnetic Resonance
    • High B/T
    • Ion Cyclotron Resonance
    • Nuclear Magnetic Resonance & Magnetic Resonance Imaging / Spectroscopy
    • Pulsed Field
    • Magnet Search
  • User Resources
    • Measurement Techniques
    • Magnet Search
    • Magnet Schedule
    • Safety
    • Experiment Support
    • Users Committee
    • Funding Opportunities
    • Travel & Lodging
    • Request Helium
    • User News
    • User FAQs
    • User Testimonials
    • User Reporting
    • User Training Videos
    • User Community
  • Research
    • Research Initiatives
    • Publications
    • Research Groups
    • Interdisciplinary Research
    • Science in a Sentence
  • Magnet Development
    • Magnet Science & Technology
    • Applied Superconductivity Center
    • FSU Magnet Research & Development, Inc.
  • Education
    • About Us
    • K12 Students
    • Teachers
    • College Students & Early Career Scientists
    • Mentoring Moments
    • Magnet Academy
  • News & Events
    • News
    • Feature Stories
    • Events
    • Media Resources
  • About
    • Around the Lab
    • Contact & Connect
    • Facts & Figures
    • Our Impact
    • Print Media
    • Visit the Lab
    • MagLab Dictionary
    • History
    • Policies & Procedures
    • Organization
  • Careers
    • Staff Search
    • Job Opportunities
    • Diversity
    • New Employee Q&A
    • Life at the Lab
    • Benefits
  • Resistive Magnets
  • Superconducting Magnets
  • Hybrid Magnets
  • Sample Environments
  • User Facilities   
  • DC Field   
  • Magnets & Instruments   
  • Resistive Magnets

31 Tesla, 50 mm Bore Magnet (Cell 9)

  • font size decrease font size decrease font size increase font size increase font size
  • Print

This standard 20 MW solenoid magnet produces 31 tesla in a 50-mm bore. This magnet usually has an advanced cryogenic system installed providing temperatures from 300 K to 300 mK.

Request time for this magnet.

See panoramic view of this magnet.

Details

  • Specs

  • Documents

  • Measurement Techniques

  • Sample Environments

  • Maximum Field: 31 tesla
  • Bore Diameter: 50 mm
  • Power: 20 MW
  • pdfUser Interface
  • pdfField Distributions
  • pdfField Profiles
  • pdfField Homogeneity
  • pdfStray Field
  • AC Electrical Conductivity
  • AC Magnetic Susceptibility
  • Capacitance Dilatometry
  • Contactless Conductivity
  • DC Electrical Conductivity
  • Dielectric Measurements
  • Heat Capacity
  • High Pressure
  • Microwave
  • Piezo Dilatometry
  • Pulse-Echo Ultrasound
  • Raman Magneto-Spectroscopy
  • Resonant Ultrasound Spectroscopy
  • Torque Magnetometry
      • 31 T 3He system & VTI

Images

Click on an image for details.

  • View of cell 9. View of cell 9. View of cell 9.
  • View of cell 9 from the magnet platform. View of cell 9 from the magnet platform. View of cell 9 from the magnet platform.
  • Cryostat on the 31 tesla magnet in cell 9. Cryostat on the 31 tesla magnet in cell 9. Cryostat on the 31 tesla magnet in cell 9.
  •  
View the embedded image gallery online at:
https://nationalmaglab.org/user-facilities/dc-field/instruments-dcfield/resistive-magnets/31-tesla-cell-9#sigProId8eab5f08c3

Staff Contact

  • Tim Murphy
Last modified on 2 May 2019
back to top

User Facilities

  • DC Field
    • Magnets & Instruments
      • Resistive Magnets
      • Superconducting Magnets
      • Hybrid Magnets
      • Sample Environments
    • Measurement Techniques
    • Magnet Schedule
    • DC Field Research
      • Publications
      • Science Highlights
    • Staff
  • Electron Magnetic Resonance
    • Instruments
    • Measurement Techniques
    • Sample Types
    • Staff
    • Resources
    • EMR Research
      • Publications
      • Science Highlights
    • Magnet Schedule
  • High B/T
    • Magnets & Instruments
    • Measurement Techniques
    • High B/T Research
      • Publications
      • Science Highlights
    • Staff
    • Magnet Schedule
  • Ion Cyclotron Resonance
    • Instruments
    • Techniques
    • Applications
    • Staff
    • ICR Research
      • Publications
      • Science Highlights
    • Magnet Schedule
    • Resources
    • ICR Software
  • Nuclear Magnetic Resonance & Magnetic Resonance Imaging / Spectroscopy
    • Solid State NMR
    • Solution State NMR
    • MRI/S
    • Diffusion
    • MR Microscopy
    • Capabilities & Techniques
    • Instruments
    • Magnet Schedules
      • FSU/Tallahassee
    • NMR-MRI/S Research
      • Publications - FSU/Tallahassee
      • Publications - UF/Gainesville
      • Highlights - FSU/Tallahassee
      • Highlights - UF/Gainesville
    • Staff
      • FSU/Tallahassee
      • UF/Gainesville
    • Resources
  • Pulsed Field
    • Magnets
    • Measurement Techniques
    • Pulsed Field Research
      • Publications
      • Science Highlights
    • Magnet Schedule
    • Staff
  • Magnet Search

Magnets by Technique

Measurement Type

Technique

Magnets by Field & Bore Size

Bore sizes range from 1 to 900 mm. Field strength ranges from 1 to 300 tesla.

Bore Size (mm)

-

Magnet Type

Facility

Field Strength (Tesla)

-
  • © 2019 National MagLab
  • Site Map
  • Security & Privacy
  • Contact Us
  • Intranet Portal
  • User Login

Back to the top

National Science Foundation logo Florida State University logo

The National High Magnetic Field Laboratory

1800 E. Paul Dirac Drive Tallahassee, FL 32310

(850) 644-0311 | This email address is being protected from spambots. You need JavaScript enabled to view it.

Funded by the National Science Foundation (DMR-1644779) and the State of Florida

  • Facebook
  • Twitter
  • Youtube
  • Instagram
  • Pinterest
  • LinkedIn
  • Flickr