Occipital alpha-band brain waves when the eyes are closed are shaped by ongoing visual processes

One of the seminal findings of cognitive neuroscience is that the power of occipital alpha-band (similar to 10 Hz) brain waves is increased when peoples' eyes are closed, rather than open. This has encouraged the view that alpha oscillations are a default dynamic, to which the visual brain returns in the absence of input. Accordingly, we might be unable to increase the power of alpha oscillations when the eyes are closed, above the level that would normally ensue when people close their eyes. Here we report counter evidence. We used electroencephalography (EEG) to record brain activity when people had their eyes open and closed, both before and after they had adapted to radial motion. The increase in alpha power when people closed their eyes was increased by prior adaptation to a broad range of radial motion speeds. This effect was greatest for 10 Hz motion, but robust for other frequencies (and especially 7.5 Hz). This discredits a persistent entrainment of activity at the adaptation frequency as an explanation for our findings. Our data show that the power of occipital alpha-band brain waves can be increased by motion sensitive visual processes that persist when the eyes are closed. Consequently, we suggest that the power of these brain waves is, at least in part, an index of the degree to which visual brain activity is being subjected to inhibition. This is increased when people close their eyes, but can be even further increased by pre-adaptation to radial motion.

Automated summary

One of the key findings of cognitive neuroscience is that the power of occipital alpha-band brain waves increases when people close their eyes. This increase in alpha power is believed to reflect the default state of the visual brain in the absence of external input. However, this study presents evidence that the power of alpha oscillations can be further increased by pre-adaptation to radial motion when the eyes are closed.