Bitter electromagnet

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Diamagnetic forces acting upon the water within its body levitates a live frog inside the 3.2 cm vertical bore of a Bitter solenoid. The magnetic field was about 16 teslas at the Nijmegen High Field Magnet Laboratory.

A Bitter electromagnet or Bitter solenoid is a type of electromagnet made of metal plates and insulating spacers stacked in a helical configuration, rather than coils of wire. This design was created and built in 1933 by Francis Bitter. In his honor the plates are known as Bitter plates.

Bitter electromagnets are used to produce extremely strong magnetic fields (up to 60 teslas as of 2006). The stacked plate design is mechanically very sturdy, to withstand the outward pressure produced by Lorentz forces, which increase as the square of the magnetic field strength. Additionally, water circulates through holes in the plates as a coolant, as resistive heating also increases as the square of the magnetic field strength.

Despite the drawback of resistive heating, Bitter electromagnets are used where extremely strong fields are required because superconducting electromagnets cannot operate above the field strength at which the magnet materials cease to be superconducting (typically on the order of 10 teslas, due to flux creep, though theoretical limits are higher).

[edit] External links

• National High Magnetic Field Laboratory Core Projects Page at Florida State University
• Levitating frog and a ball of water inside a Bitter solenoid at the High Field Magnet Laboratory
• Diagrams and description of the Bitter solenoid used in the frog levitation demonstration