James Leggett
Affiliations: | University of Nottingham, Nottingham, England, United Kingdom |
Area:
MRI coil design; DNPGoogle:
"James Leggett"Mean distance: 22.14 (cluster 55) | S | N | B | C | P |
Parents
Sign in to add mentor| Richard Bowtell | grad student | Nottingham | |
| Matthew J. Brookes | post-doc | 2017- | Nottingham |
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Publications
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| Holmes N, Rea M, Hill RM, et al. (2023) Naturalistic Hyperscanning with Wearable Magnetoencephalography. Sensors (Basel, Switzerland). 23 |
| Holmes N, Rea M, Hill RM, et al. (2023) Enabling ambulatory movement in wearable magnetoencephalography with matrix coil active magnetic shielding. Neuroimage. 274: 120157 |
| Rea M, Boto E, Holmes N, et al. (2022) A 90-channel triaxial magnetoencephalography system using optically pumped magnetometers. Annals of the New York Academy of Sciences |
| Holmes N, Rea M, Chalmers J, et al. (2022) A lightweight magnetically shielded room with active shielding. Scientific Reports. 12: 13561 |
| Brookes MJ, Leggett J, Rea M, et al. (2022) Magnetoencephalography with optically pumped magnetometers (OPM-MEG): the next generation of functional neuroimaging. Trends in Neurosciences |
| Boto E, Shah V, Hill RM, et al. (2022) Triaxial detection of the neuromagnetic field using optically-pumped magnetometry: feasibility and application in children. Neuroimage. 119027 |
| Mellor SJ, Tierney T, O'Neill G, et al. (2021) Magnetic Field Mapping and Correction for Moving OP-MEG. Ieee Transactions On Bio-Medical Engineering |
| Rea M, Holmes N, Hill RM, et al. (2021) Precision magnetic field modelling and control for wearable magnetoencephalography. Neuroimage. 118401 |
| Brookes MJ, Boto E, Rea M, et al. (2021) Theoretical advantages of a triaxial optically pumped magnetometer magnetoencephalography system. Neuroimage. 118025 |
| Boto E, Hill RM, Rea M, et al. (2021) Measuring functional connectivity with wearable MEG. Neuroimage. 117815 |