Topographic Analysis of Engagement and Disengagement of Neural Oscillators in Photic Driving: A Combined Electroencephalogram/Magnetoencephalogram Study. Halbleib, A., Gratkowski, M., Schwab, K., Ligges, C., Witte, H., & Haueisen, J. Journal of Clinical Neurophysiology, 29(1):33–41, February, 2012. ![Topographic Analysis of Engagement and Disengagement of Neural Oscillators in Photic Driving: A Combined Electroencephalogram/Magnetoencephalogram Study [link]](https://bibbase.org/img/filetypes/link.svg "link")
Paper doi abstract bibtex ObjectiveA coupled system of nonlinear neural oscillators with an individual resonance frequency is assumed to form the neuronal substrate for the photic driving phenomenon. The aim was to investigate the spatiotemporal stability of these oscillators and quantify the spatiotemporal process of engage
@article{halbleib_topographic_2012,
title = {Topographic {Analysis} of {Engagement} and {Disengagement} of {Neural} {Oscillators} in {Photic} {Driving}: {A} {Combined} {Electroencephalogram}/{Magnetoencephalogram} {Study}},
volume = {29},
issn = {0736-0258},
shorttitle = {Topographic {Analysis} of {Engagement} and {Disengagement} of {Neural} {Oscillators} in {Photic} {Driving}},
url = {insights.ovid.com},
doi = {10.1097/WNP.0b013e318246ad6e},
abstract = {ObjectiveA coupled system of nonlinear neural oscillators with an individual resonance frequency is assumed to form the neuronal substrate for the photic driving phenomenon. The aim was to investigate the spatiotemporal stability of these oscillators and quantify the spatiotemporal process of engage},
language = {ENGLISH},
number = {1},
urldate = {2019-10-21},
journal = {Journal of Clinical Neurophysiology},
author = {Halbleib, Andreas and Gratkowski, Maciej and Schwab, Karin and Ligges, Carolin and Witte, Herbert and Haueisen, Jens},
month = feb,
year = {2012},
pmid = {22353983},
pages = {33--41}
}
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