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Paper detail

Arbitrary multi-site two-photon excitation in four dimensions

We demonstrate dynamic and arbitrary multisite two-photon excitation in three dimensions using the holographic projection method. Rapid response (fourth dimension) is achieved through high-speed noniterative calculation of the hologram using a video graphics accelerator board. We verify that the projected asymmetric spot configurations have sufficient spatiotemporal photon density for localized two-photon excitation. This system is a significant advance and can be applied to time-resolved photolysis of caged compounds in biological cells and complex neuronal networks, nonlinear microfabrication and volume holographic optical storage.

preprint2009arXivOpen access
Vincent Ricardo DariaChristian StrickerRichard BowmanStephen RedmanHans-A. Bachor
physics.med-phphysics.optics
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Vincent Ricardo DariaChristian StrickerRichard BowmanStephen RedmanHans-A. Bachor

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