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The Neocortex-Cerebellum Circuitry Lab requires an acousto-optic deflector-based scanhead for high-speed random access volumetric twophoton imaging with real-time motion correction. A major goal of th... The Neocortex-Cerebellum Circuitry Lab requires an acousto-optic deflector-based scanhead for high-speed random access volumetric twophoton imaging with real-time motion correction. A major goal of the research performed by the lab is to understand communication between the neocortex and cerebellum while animals learn novel behavioral skills over weeks. The lab measures activity in both cortex and cerebellum simultaneously using a custom dual-site two-photon microscope, across multiple genetically defined populations using dual-wavelength two-color imaging, and by combining imaging of one neural population with stimulation of another. To equip this microscope with next-generation imaging capabilities, it is critical to employ a mechanism to enable high-speed, random access, volumetric laser scanning with realtime brain motion correction.

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