Here we review the role of brain oscillations in sensory processing. We examine the idea
that neural entrainment of intrinsic oscillations underlies the processing of rhythmic stimuli in …

Research on speech processing is often focused on a phenomenon termed “entrainment”,
whereby the cortex shadows rhythmic acoustic information with oscillatory activity …

Speech is crucial for communication in everyday life. Speech-brain entrainment, the
alignment of neural activity to the slow temporal fluctuations (envelope) of acoustic speech …

Selectively attending to one speaker in a multi-speaker scenario is thought to synchronize
low-frequency cortical activity to the attended speech signal. In recent studies, reconstruction …

A body of research demonstrates convincingly a role for synchronization of auditory cortex to
rhythmic structure in sounds including speech and music. Some studies hypothesize that an …

Neural oscillations track linguistic information during speech comprehension (Ding et al.,
2016; Keitel et al., 2018), and are known to be modulated by acoustic landmarks and …

Low-frequency neural entrainment to rhythmic input has been hypothesized as a canonical
mechanism that shapes sensory perception in time. Neural entrainment is deemed …

Due to their periodic nature, neural oscillations might represent an optimal" tool" for the
processing of rhythmic stimulus input [1–3]. Indeed, the alignment of neural oscillations to a …

It is undisputed that presenting a rhythmic stimulus leads to a measurable brain response
that follows the rhythmic structure of this stimulus. What is still debated, however, is the …

Rhythmic sensory or electrical stimulation will produce rhythmic brain responses. These
rhythmic responses are often interpreted as endogenous neural oscillations aligned (or …