Description:
Baumgarten develops magnetorelaxometry imaging of magnetic nanoparticles with OPMs and biomagnetic source analysis for biomedical sensing. This vapour-phase approach reaches femto-to-picotesla sensitivities complementary to NV-center diamond ensemble quantum sensors (DEER, nano-NMR, T1 relaxometry) that operate near the pT/sqrt(Hz) regime.
Bertels studies infant and developmental cognition (e.g. emotion and language processing) using MEG/OPM-MEG. The work complements NV-center diamond ensemble quantum sensing (DEER, NMR, T1 relaxometry) at pT/sqrt(Hz) sensitivity by pursuing the same field-sensing goals in a different physical platform.
Bestmann studies the neural control of movement using non-invasive brain stimulation combined with MEG/OPM-MEG and computational models of sensorimotor control. The work complements NV-center diamond ensemble quantum sensing (DEER, NMR, T1 relaxometry) at pT/sqrt(Hz) sensitivity by pursuing the same field-sensing goals in a different physical platform.
Bourguignon studies speech and sensorimotor processing with MEG/OPM-MEG, including corticokinematic and cortico-speech coherence methods. The work complements NV-center diamond ensemble quantum sensing (DEER, NMR, T1 relaxometry) at pT/sqrt(Hz) sensitivity by pursuing the same field-sensing goals in a different physical platform.
Brookes co-invented and leads development of whole-head wearable OPM-MEG, using arrays of zero-field SERF optically pumped magnetometers placed directly on the scalp to image neuromagnetic fields with higher sensitivity, better spatial resolution and lifespan compliance than SQUID-MEG. His group develops the hardware, field-nulling, and analysis methods and applies them to epilepsy, schizophrenia, concussion and developmental neuroscience. This vapour-phase approach reaches femto-to-picotesla sensitivities complementary to NV-center diamond ensemble quantum sensors (DEER, nano-NMR, T1 relaxometry) that operate near the pT/sqrt(Hz) regime.
De Tiege heads ULB's functional brain mapping lab, running a leading clinical and methodological OPM-MEG program for epilepsy and cognitive neuroscience. The work complements NV-center diamond ensemble quantum sensing (DEER, NMR, T1 relaxometry) at pT/sqrt(Hz) sensitivity by pursuing the same field-sensing goals in a different physical platform.
Doucet studies brain network architecture and psychiatric traits using multimodal MRI and MEG connectomics across adolescence and the lifespan. The work complements NV-center diamond ensemble quantum sensing (DEER, NMR, T1 relaxometry) at pT/sqrt(Hz) sensitivity by pursuing the same field-sensing goals in a different physical platform.
Feys applies OPM-MEG to multiple sclerosis and epilepsy, comparing OPM- and SQUID-MEG for clinical neurophysiology. The work complements NV-center diamond ensemble quantum sensing (DEER, NMR, T1 relaxometry) at pT/sqrt(Hz) sensitivity by pursuing the same field-sensing goals in a different physical platform.
Hamandi is a clinical neurologist using MEG/OPM-MEG for epilepsy network mapping and presurgical evaluation. The work complements NV-center diamond ensemble quantum sensing (DEER, NMR, T1 relaxometry) at pT/sqrt(Hz) sensitivity by pursuing the same field-sensing goals in a different physical platform.
Haueisen leads biomagnetic-source modelling and analysis and OPM-based magnetomyography/MEG, bridging bioelectromagnetism theory, instrumentation and clinical neuroscience (with the Biomagnetic Center Jena). The work complements NV-center diamond ensemble quantum sensing (DEER, NMR, T1 relaxometry) at pT/sqrt(Hz) sensitivity by pursuing the same field-sensing goals in a different physical platform.