In the first 30 months of the project, we have conducted multiple human neuroimaging studies investigating subjective perception as outlined above. We have devised and implemented a novel experimental paradigm aimed at testing effects of expectation on false percepts, i.e. seeing things that are not there. We have tested this paradigm using 7T layer-specific fMRI to distinguish feedback and feedforward signaling, and using magnetoencephalograophy (MEG) to resolve the underlying neural signals with millisecond temporal resolution. These studies revealed neural signals reflecting both expectations and false percepts, but interestingly these two types of signals did not interact. That is, participants had false percepts, but they were not influenced by the expectations we cued. In follow-up large sample online psychophysics work, we found that this is likely because there are two types of expectations at play, expecting to see something vs. nothing, and expecting specific stimulus contents, and that these expectations interact in complex ways.
Additionally, we have used MEG to investigate the brain rhythms involved in signalling expectations. This work revealed that expectations oscillate at alpha rhythms (8-12 Hz), a rhythm that is known to be strongly involved in visual perception. Indeed, this work revealed a direct relationship between the strength of these alpha rhythms and effects of expectation on perceptual performance, suggesting a direct link.
Together, this work has led to fascinating new insights in the neural mechanisms underlying expectation and subjective perception.