Fluxlocked

Fluxlocked, often written flux-locked in reference to the flux-locked loop (FLL), is a principle and mode of operation used in superconducting quantum interference device (SQUID) magnetometers and related sensors. In a flux-locked system, the external magnetic flux acting on a superconducting loop is actively canceled by a feedback current, keeping the net flux near a fixed operating point. This yields a linear, high-bandwidth response over a wide dynamic range, addressing the intrinsic periodic, highly nonlinear transfer function of a bare SQUID.

Operation: The SQUID converts magnetic flux to a change in voltage. This signal is compared to a

History and context: The flux-locked loop was developed in the 1960s–1970s as SQUID technology matured, enabling

Applications: FLL-based SQUIDs are used in magnetoencephalography (MEG), geophysical surveys, nondestructive evaluation, material characterization, and scanning

Characteristics and limitations: The method provides vast linear dynamic range and high sensitivity, but requires cryogenic