The strongest peak frequency of brain oscillations in a brain area decreases significantly, gradually and robustly along the posterior-anterior axis following the global hierarchy from early sensory to higher order areas.

Stochastic resonance, triggered by fluctuations in brain state, is found to determine the outcomes of periodic stimulation and how it interacts with brain oscillations.

Detecting neural oscillations in time and frequency domains enables the detailed study of spatiotemporal dynamics of oscillations throughout the brain and the investigation of biomarkers that index functional brain areas.

Invasively recorded cortical beta oscillations form whole-brain structural and functional networks that are modulated by dopamine.

Applying decomposition of oscillatory and aperiodic signal components to developmental EEG data provides a solution for the problems in the investigation of alpha power during brain maturation.

Locally activatable bioluminescence (LABL) is a genetically encoded reporter that allows real time, in vivo measurement of distinct clocks in different cells and tissues in Drosophila.

An oscillating computational model combined with a predictive internal linguistic model can track naturally timed speech in which pseudo-rhythmicity is related to the predictability of words within their sentence context.

Neuropeptide F/Y from neurons drives rhythmic expression of detoxification-related genes in a peripheral metabolic tissue in flies and mice.

Phase-locking of hippocampal theta and gamma waves has been proposed to support memory formation, but an analysis using robust statistical methods finds no convincing evidence for the phenomenon.

Rhythms of lip movements entrain low-frequency brain oscillations and facilitate audiovisual speech processing.