| human | Q5 |
| P496 | ORCID iD | 0000-0003-4190-5335 |
| P108 | employer | Los Alamos National Laboratory | Q379848 |
| P106 | occupation | researcher | Q1650915 |
| Q36165892 | A High-Sensitivity Tunable Two-Beam Fiber-Coupled High-Density Magnetometer with Laser Heating |
| Q44244387 | Anatomical MRI with an atomic magnetometer. |
| Q60125763 | Applications of Ultra-Low Field Magnetic Resonance for Imaging and Materials Studies |
| Q60125564 | CHAPTER 7. Detection Using SQUIDs and Atomic Magnetometers |
| Q51867698 | Detection of 3He spins with ultra-low field nuclear magnetic resonance employing SQUIDs for application to a neutron electric dipole moment experiment. |
| Q87291527 | Gradient-echo 3D imaging of Rb polarization in fiber-coupled atomic magnetometer |
| Q53354914 | MRI with an atomic magnetometer suitable for practical imaging applications. |
| Q30628115 | Method for accurate measurements of nuclear-spin optical rotation for applications in correlated optical-NMR spectroscopy. |
| Q36916615 | Microtesla MRI of the human brain combined with MEG. |
| Q35469820 | Multi-flux-transformer MRI detection with an atomic magnetometer. |
| Q35092067 | Noise Modeling From Conductive Shields Using Kirchhoff Equations |
| Q30465247 | Non-cryogenic anatomical imaging in ultra-low field regime: hand MRI demonstration |
| Q37120384 | Non-cryogenic ultra-low field MRI of wrist-forearm area |
| Q60125751 | Progress on Detection of Liquid Explosives Using Ultra-Low Field MRI |
| Q35092076 | SQUIDs vs. Induction Coils for Ultra-Low Field Nuclear Magnetic Resonance: Experimental and Simulation Comparison |
| Q60125758 | Ultra-low-field MRI for the detection of liquid explosives |
| Q35996678 | Ultra-sensitive Magnetic Microscopy with an Optically Pumped Magnetometer. |
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