Mag Lab World Records (or: Boebinger's Believe it or Not!)
Always pushing the scientific envelope, the Magnet Lab holds numerous records for high magnetic fields and other key measures of the power and utility of the instruments at our facility. Most of the records we have established since the lab opened have been short-lived, as we are constantly surpassing them. As you can see in the table below, where some of our current records are featured, there's a very good reason why hundreds of researchers a year travel to our unique lab to use these awesome tools. For technical details on these records, click on the blue links in the table.
First, a few quick definitions:
- Dalton: Unit of molecular mass. A hydrogen atom weighs about 1 Dalton (Da)
- Kelvin: A temperature scale used by scientists. Zero Kelvin (0 K) is known as absolure zero, and is the equivalent of -273 degrees Celsius and -460 degrees Fahrenheit. Absolute zero is as cold as cold can get.
- Tesla: Measure of magnetic field strength. The Earth's magnetic field is one twenty thousandth (.00005) of a tesla (T).
Mag Lab World Records
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Highest magnetic field for a continuous field magnet (Guinness World Record)
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45 tesla
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Highest field for a resistive magnet
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35 tesla
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Highest field for a long-pulse magnet
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60 tesla
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Highest field for a non-destructive magnet
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90 tesla1
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Highest field for any superconducting magnet
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26.8 tesla
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Highest homogeneity of any resistive magnet
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25 tesla Keck magnet
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World's largest bore size for a 900 MHz NMR magnet
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105 mm (about 4 inches)
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Highest mass sensitivity of any probe at any frequency
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600 MHz, triple- resonance probe
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Smallest resolved mass difference between two molecules (achieved with our 9.4 tesla FT-ICR instrument)
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0.000452 Dalton
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Highest observed nuclear resonance Larmor frequency
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1.9GHz Proton NMR at 44.7 tesla
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Highest frequency spectrometer for pulsed Electron Paramagnetic Resonance (EPR)
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336 GHz / 12 tesla
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Highest field for an MRI study of a living animal
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21.1 tesla (900 MHz)
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Highest B/T (magnetic field / temperature) ratio for studies of electron systems in an applied field B with electronic temperature T
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16.5 tesla / 0.001 Kelvin
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1Mag Lab scientists and engineers are currently working on increasing this field to 100 tesla.
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For more information please contact Public Affairs Director Susan Ray.