We are awash in magnetic fields. Power lines, earbuds, and motors each generate their own fields, and some cars have upwards of 150 magnets; Earth’s field varies between about 25 µT and 65 µT at the surface, roughly 1/200 that of a refrigerator magnet. For precision measurements, whether of fundamental physical quantities or of brain activity, magnetic fields can be unwanted sources of noise, and experiments require environments shielded from fields both constant and varying in space and time. As part of a quest to put new limits on the electric dipole moment of the neutron (see the article by Norval Fortson, Patrick Sandars, and Steve Barr, Physics Today, June 2003, page 33), an international team led by Peter Fierlinger of the Technical University of Munich has demonstrated the ability to reduce field fluctuations at millihertz frequencies by a million-fold over a 4-m3 volume. That shielding represents...
Skip Nav Destination
Article navigation
1 July 2015
July 01 2015