To improve performance further, the NIST team is now building and testing a custom
quantum magnetometer.
Not exact matches
Tarduno and his team used a unique superconducting
quantum interference device, or SQUID
magnetometer, at the University of Rochester that provides a sensitivity ten times greater than comparable instruments.
You could widen their range if you had a
magnetometer based on a superconducting
quantum interference device, or SQUID.
This allows them to reduce the
quantum noise coming from the atoms, and improve the sensitivity of the
magnetometer beyond the standard
quantum limit.
The discovery was also enabled by the arrival last summer an instrument called a SQUID
magnetometer (Superconducting
QUantum Interference Device) that can measure magnetism with great accuracy down to below 2 degrees above absolute zero.