New paper by @avbarchet.bsky.social from Gesa Hartwigsen’s group, @jonasobleser.bsky.social @ae.mpg.de @mpicbs.bsky.social We suggest attentional filtering during comprehension requires target enhancement and distractor suppression at different hierarchical levels
www.jneurosci.org/content/earl...
Our latest preprint! We find that auditory-motor synchronization behavior is related to the weighting of rhythmic versus melodic predictions during music perception, including long-term enculturated predictions. www.biorxiv.org/content/10.1...
main goal for this year: find a new job! 🙂
looking for a role with fun & complex technical challenges & within a great community. my main expertise is in signal processing/EEG/MEG, but topic-wise I am quite flexible.
science/industry both great! starting mid-year. nschawor.github.io/cv
Interested in doing a PhD with me and lacns.github.io? Or with any of the incredible fellows in the IMPRS School of Cognition www.maxplanckschools.org/cognition-en - apply before Dec 1st at cognition.maxplanckschools.org/en/application
Submit to our collection :) This is a fantastic opportunity to publish your work on cortico-subcortical loops
exciting! this was fun to be part of! thank you @ckeitelsci.bsky.social @annekeitel.bsky.social @satupalva.bsky.social @paulsauseng @sonjakotz for making it happen 🤗
How does the brain track rhythms—and can we hack it?
In our new study, just published @plosbiology.org, we dive deeper into neural entrainment—how the brain synchronizes to rhythms in our environment—and explore whether transcranial alternating current stimulation (tACS) can modulate this process.
Very happy to see this out! In this work I demonstrate the potential of OPMs for laminar MEG and investigate the impact of factors such as sensor counts, number of measurement axes, co-registration errors, misestimated forward models…
Already looking forward to Imaging Neuroscience’s 2025 collage!
/1 We took our sweet time (~3yrs) to put this into its final shape - but happy to say that the pre-print of an extensive review of brain rhythms in cognition - from a cognruro perspective - is now available. Please let us know what you think. #neuroskyence doi.org/10.48550/arX...
Video
Understanding speech while ignoring competing speech streams in the surrounding environment is challenging. Previous studies have demonstrated that attention shapes the neural representation of speech...
www.jneurosci.org
When listening to music, our brain constantly generates predictions about the timing and pitch of upcoming sounds based on the structure of the music. Individual differences in the ability to make suc...
We are an international group of scientists consisting of linguists, cognitive scientists, cognitive neuroscientists, computational neuroscientists, computational modellers, computational scientists, ...
lacns.github.io
Brain rhythms seem central to understanding the neurophysiological basis of human cognition. Yet, despite significant advances, key questions remain unresolved. In this comprehensive position paper, w...
Transcranial alternating current stimulation (tACS) modulates entrainment to rhythmic auditory stimuli, but the details of this interaction are not clear. This study shows that the effects of tACS dep...
journals.plos.org
Julio Hechavarria
andrea e. martin
Johanna Rimmele
Johanna Rimmele
Johanna Rimmele
Natalie Schaworonkow
/1 We took our sweet time (~3yrs) to put this into its final shape - but happy to say that the pre-print of an extensive review of brain rhythms in cognition - from a cognruro perspective - is now available. Please let us know what you think. #neuroskyence doi.org/10.48550/arX...
Yuranny Cabral-Calderin
Saskia Helbling
Benedikt Zoefel
SCONe - Scottish-EU Critical Oscillations Network
Our Cortical-subcortical brain loops cross-journal collection with @natneuro.nature.com, @natcomms.nature.com, & Scientific Reports is open for submissions ðŸ§
Curated by our board members @talking-bat.bsky.social, @stefanieliebe.bsky.social, & Markus Rothermel.
Check at www.nature.com/collections/...
New paper in Imaging Neuroscience by Saskia Helbling:
Inferring laminar origins of MEG signals with optically pumped magnetometers (OPMs): A simulation study
direct.mit.edu/imag/article...
doi.org
Brain rhythms seem central to understanding the neurophysiological basis of human cognition. Yet, despite significant advances, key questions remain unresolved. In this comprehensive position paper, w...
