2021
DOI: 10.3390/s21041517
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Chip-Scale Ultra-Low Field Atomic Magnetometer Based on Coherent Population Trapping

Abstract: We report a chip-scale atomic magnetometer based on coherent population trapping, which can operate near zero magnetic field. By exploiting the asymmetric population among magnetic sublevels in the hyperfine ground state of cesium, we observe that the resonance signal acquires sensitivity to magnetic field in spite of degeneracy. A dispersive signal for magnetic field discrimination is obtained near-zero-field as well as for finite fields (tens of micro-tesla) in a chip-scale device of 0.94 cm3 volume. This sh… Show more

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Cited by 14 publications
(5 citation statements)
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“…The most successful realization of the Hanle magnetometer operates in the SERF regime, which has now become a well-recognized magnetometer type in its own right. The magnetometer operating principles in the first four columns of table 2 may be loosely categorized under the umbrella of 'magneto-optical double resonance'-a general term which refers to the dual combination of optical and magnetic resonances, manifested physically [116,117] when the frequency of an applied or effective RF field matches the Larmor frequency. This concept and its experimental demonstration in atomic spectroscopy predate magnetometry applications [118,119].…”
Section: Common Types Of Atomic Magnetometersmentioning
confidence: 99%
“…The most successful realization of the Hanle magnetometer operates in the SERF regime, which has now become a well-recognized magnetometer type in its own right. The magnetometer operating principles in the first four columns of table 2 may be loosely categorized under the umbrella of 'magneto-optical double resonance'-a general term which refers to the dual combination of optical and magnetic resonances, manifested physically [116,117] when the frequency of an applied or effective RF field matches the Larmor frequency. This concept and its experimental demonstration in atomic spectroscopy predate magnetometry applications [118,119].…”
Section: Common Types Of Atomic Magnetometersmentioning
confidence: 99%
“…The closed-loop magnetometer achieved a sensitivity of 210.5 pT/Hz 1/2 @ 1Hz. In recent years, the CPT atomic magnetometer scheme for measuring in the vector magnetic field and measuring in the near-zero field has also been proposed and verified [35,97].…”
Section: Cpt Magnetometersmentioning
confidence: 99%
“…Although superconducting quantum interference devices (SQUIDs) have been reported to be suitable for high-sensitivity applications, cryogenic cooling is required to maintain the sensitivity of such sensors, which increases the volume and cost of the measurement system [11,12]. Atomic magnetometers, which are based on the interaction of resonant magneto-optics with atomic vapor, have achieved sensitivities comparable to, and sometimes exceeding, certain state-of-the-art SQUIDs during the past 20 years [13][14][15]. In certain applications, including magnetocardiography and magnetoencephalography, atomic magnetometers are often considered as promising alternatives to SQUIDs because of their inherent benefits of not requiring cryogenic cooling and enabling variable placement of the sensor.…”
Section: Introductionmentioning
confidence: 99%