Novel strategies for holographic optical activation of neurons

In-vivo two photon imaging of neuronal activity in the higher sensory cortical layers has revealed that the spatial arrangements of neurons involved in processing sensory stimuli is complex. Recent advances in optogenetics have allowed for optical manipulation of neurons, and holographic microscopy has enabled us to selectively target neurons for activation. Here we introduce the use of extended holographic patterns with high planar selectivity for photo activation of neurons. Our approach takes advantage of a lens function to reduce off-target speckles. We find that in addition to reducing speckles, our approach also generates target patterns with a higher degree of uniformity. We demonstrate the feasibility of this method for in vivo studies of the auditory cortex.