Perception is suggested to occur in discrete temporal windows, clocked by cycles of neural
oscillations. An important testable prediction of this theory is that individuals' peak …

Neural oscillations in the 8–12 Hz alpha band are thought to represent top–down inhibitory
control and to influence temporal resolution: Individuals with faster peak frequencies …

An intriguing question in cognitive neuroscience is whether alpha oscillations shape how
the brain transforms the continuous sensory inputs into distinct percepts. According to the …

Recent behavioral, neuroimaging, and neurophysiological studies have renewed the idea
that the information processing within different temporal windows is linked to the phase …

The human brain exhibits both oscillatory and aperiodic, or 1/f, activity. Although a large
body of research has focused on the relationship between brain rhythms and sensory …

The papers collected in this Special Focus, prompted by S. Buergers and U. Noppeney [The
role of alpha oscillations in temporal binding within and across the senses. Nature Human …

The visual system can perceive two distinct flashes presented sequentially as integrated or
segregated, depending on the temporal interval between them (Hirsh and Sherrick, 1961; …

Temporal integration in visual perception is thought to occur within cycles of occipital alpha-
band (8–12 Hz) oscillations. Successive stimuli may be integrated when they fall within the …

Over the past decades, numerous studies have linked cortical gamma oscillations (∼ 30–
100 Hz) to neurocomputational mechanisms. Their functional relevance, however, is still …

Incoming sensory input is condensed by our perceptual system to optimally represent and
store information. In the temporal domain, this process has been described in terms of …