Your search keyword '"Chalmers, Iain C."' showing total 4 results

1. Resonant Very Low- and Ultra Low Frequency Digital Signal Reception Using a Portable Atomic Magnetometer

Author

Ingleby, Stuart J., Chalmers, Iain C., Dyer, Terry E., Griffin, Paul F., and Riis, Erling

Subjects

Physics - Atomic Physics, Physics - Applied Physics, Physics - Instrumentation and Detectors

Abstract

Radio communication through attenuating media necessitates the use of very-low frequency (VLF) and ultra-low frequency (ULF) carrier bands, which are frequently used in underwater and under-ground communication applications. Quantum sensing techniques can be used to circumvent hard constraints on the size, weight and noise floor of classical signal transducers. In this low-frequency range, an optically pumped atomic sample can be used to detect carrier wave modulation resonant with ground-state Zeeman splitting of alkali atoms. Using a compact, self-calibrating system we demonstrate a resonant atomic transducer for digital data encoded using binary phase- and frequency-keying of resonant carrier waves in the 200 Hz -200 kHz range. We present field trial data showing sensor noise floor, decoded data and received bit error rate, and calculate the projected range of sub-sea communication using this device., Comment: 8 pages, 9 figures

Published

2020

2. Optically Pumped Magnetometry in Arbitrarily Oriented Magnetic Fields

Author

Ingleby, Stuart J., Chalmers, Iain C., O'Dwyer, Carolyn, Griffin, Paul F., Arnold, Aidan S., and Riis, Erling

Subjects

Physics - Atomic Physics, Physics - Instrumentation and Detectors

Abstract

Optically pumped atomic magnetometers (OPMs) offer highly sensitive magnetic measurements using compact hardware, offering new possibilities for practical precision sensors. Double-resonance OPM operation is well suited to unshielded magnetometry, due to high sensor dynamic range. However, sensor response is highly anisotropic with variation in the orientation of the magnetic field. We present data quantifying these effects and discuss implications for the design of practical sensors., Comment: IEEE Sensors 2017 paper preprint

Published

2017

3. A feed-forward measurement scheme for periodic noise suppression in atomic magnetometry

Author

O’Dwyer, Carolyn, primary, Ingleby, Stuart J., additional, Chalmers, Iain C., additional, Griffin, Paul F., additional, and Riis, Erling, additional

Published

2020

4. A feed-forward measurement scheme for periodic noise suppression in atomic magnetometry.

Author

O'Dwyer, Carolyn, Ingleby, Stuart J., Chalmers, Iain C., Griffin, Paul F., and Riis, Erling

Subjects

MAGNETIC noise, ELECTRIC noise, ALTERNATING currents, NOISE, MAGNETOMETERS, FEED additives, ANIMAL feeds

Abstract

We present an unshielded, double-resonance magnetometer in which we have implemented a feed-forward measurement scheme in order to suppress periodic magnetic noise arising from, and correlated with, the mains electricity alternating current line. The technique described here uses a single sensor to track ambient periodic noise and feed forward to suppress it in a subsequent measurement. This feed forward technique has shown significant noise suppression of electrical mains-noise features of up to 22 dB under the fundamental peak at 50 Hz, 3 dB at the first harmonic (100 Hz), and 21 dB at the second harmonic (150 Hz). This technique is software based, requires no additional hardware, and is easy to implement in an existing magnetometer. [ABSTRACT FROM AUTHOR]

Published

2020