In this study, we determined the effects of different acoustic stimulation conditions on participant response accuracy and cortical network topology, as measured by EEG recordings, during a visuospatial working memory task. Furthermore, no studies have evaluated the effects of binaural beats on brain connectivity during working memory tasks. The effects of binaural beats on working memory, the system in control of temporary retention and online organization of thoughts for successful goal directed behavior, have not been well studied. This procedure produces a third phantom binaural beat, whose frequency is equal to the difference of the two presented tones and which can be manipulated for non-invasive brain stimulation. Moreover, the N3 latency of the experimental group was shorter.īinaural beats utilize a phenomenon that occurs within the cortex when two different frequencies are presented separately to each ear. The results showed that the N3 duration of the experimental group was longer than that of the control group, and the N2 duration of the experimental group was shorter than that of the control group. However, the participants were blinded to their stimulus group. For the control group, a silent sham stimulus was used. The stimulus was initiated when the first epoch of the N2 sleep stage was detected and stopped when the first epoch of the N3 sleep stage detected. Participants in both groups underwent the same procedures, but only the experimental group was exposed to the 3-Hz binaural beat on the experimental night. The experimental period was three consecutive nights consisting of an adaptation night, a baseline night, and an experimental night. Twenty-four participants were allocated to experimental and control groups. This study aimed to investigate the effect of a 3-Hz binaural beat on sleep stages, which is considered a behavioral state. The binaural beat can entrain neural activities to synchronize with the beat frequency and induce behavioral states related to the neural activities. In this phenomenon, the so-called binaural beat has a frequency equaling the difference of the frequencies of the two pure tones. The dichotic presentation of two almost equivalent pure tones with slightly different frequencies leads to virtual beat perception by the brain.
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