The human brain generates magnetic fields 100 times weaker than those of the heart. Such fields can reveal subtle medical clues, different from those provided by electric fields, about such maladies as epilepsy and arrhythmias. Sensitive magnetometers, based on superconducting quantum interference devices (SQUIDs), are used to acquire detailed maps of the brain’s feeble fields, but those devices require liquid helium and all the associated cryogenic equipment. Michael Romalis (Princeton University) and his team have now used an atomic magnetometer to detect the brain’s faint magnetic fields without cryogenics. The core of the device is a heated cell filled with potassium atoms that have been polarized by a laser beam (see Physics Today, July 2003, page 21). At near-zero ambient fields and with a volunteer’s head resting on an insulating pad atop the device, the physicists monitored the atomic polarization. They could optically detect when and how much...
Skip Nav Destination
Article navigation
1 January 2007
January 01 2007
Citation
Philip F. Schewe; Warm detectors look at brain magnetism. Physics Today 1 January 2007; 60 (1): 26. https://doi.org/10.1063/1.4797439
Download citation file:
PERSONAL SUBSCRIPTION
Purchase an annual subscription for $25. A subscription grants you access to all of Physics Today's current and backfile content.
Sign In
You could not be signed in. Please check your credentials and make sure you have an active account and try again.
17
Views
Citing articles via
The lessons learned from ephemeral nuclei
Witold Nazarewicz; Lee G. Sobotka
FYI science policy briefs
Lindsay McKenzie; Jacob Taylor