Abstract
We have constructed a low-cost, portable, high-sensitivity 16-channel optically pumped magnetometer (OPM), operating in the spin-exchange relaxation-free regime, and demonstrated its applications in magnetocardiography (MCG). The decrease in the cost of sensors by an order of magnitude is achieved by the 16-channel operation realized in a single module using a single large flat pancake rubidium vapor cell, broad pump and probe laser beams, and a 16-channel photodiode array. The OPM is also based on a fiber-coupled nearly parallel-beam configuration to facilitate multichannel design and make the system portable. For human MCG experiments, the 16-channel OPM which includes optical components is placed inside a wooden enclosure for laser safety. The enclosure is set on a nonmagnetic table inside a magnetically shielded room, while the lasers and electronics are placed outside the shielding room, to avoid magnetic noise. We show that the 16-channel OPM enables simultaneous imaging of human cardiac activity on a large area of the chest in a single scan. The multichannel capability will accelerate clinical MCG imaging to reduce the procedure time and patient fatigue.
Highlights
Multichannel parallel magnetic imaging in MCG applications is required to greatly accelerate the measurements by simultaneously mapping a sufficiently large heart area and to reduce the procedure time and patient fatigue in clinical MCG applications
We show that the 16-channel optically pumped magnetometer (OPM) enables simultaneous imaging of human cardiac activity on a large area of the chest in a single scan
The OPMs are the most sensitive room-temperature magnetic-field sensors with sensitivity comparable to that of superconducting quantupmffiffiffiiffinffiffiterference device (SQUID),9,10 which have been used for high precision magnetic measurements such as magneto-encephalography (MEG)11 and searches for exotic fundamental particles
Summary
Multichannel parallel magnetic imaging in MCG applications is required to greatly accelerate the measurements by simultaneously mapping a sufficiently large heart area and to reduce the procedure time and patient fatigue in clinical MCG applications. ABSTRACT We have constructed a low-cost, portable, high-sensitivity 16-channel optically pumped magnetometer (OPM), operating in the spinexchange relaxation-free regime, and demonstrated its applications in magnetocardiography (MCG).
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