Abstract: A structured-illumination module included in a 3D-structured-illumination-based fluorescence microscope, the structured-illumination module comprising: a structured-illumination-module frame; a beam-alignment module including a central tilt mirror coupled to an underside of a top horizontal plate of the structured-illumination-module frame; a set of directional mirrors, one of which receives, at a given point in time, input, polarized, coherent light reflected from the central tilt mirror; three sets of beam splitters, on three arms of the structured-illumination-module frame, the each splits an incident illumination beam, reflected to the set of beam splitters from a directional mirror of the set of directional mirrors, into a coherent beam triplet; and a phase-shift module that receives a beam triplet, at a given point in time, generated by one of the sets of beam splitters and reflected from the beam-alignment module and that introduces a desired relative phase relationship among the beams of the beam trip

Abstract: Embodiments of the present invention are directed to providing and controlling illumination for three-dimensional structured illumination microscopy. Three phase-coherent beams, referred to as a “beam triplet,” are produced with planar beamsplitters. The relative phases of the beams are controlled by piezo-coupled mirrors or other means. The beams pass through the microscope objective and interfere to produce the 3D structured illumination pattern. The spatial orientation and location of the pattern is manipulated by adjusting the relative phases of the beams.

Abstract: It is a goal of the proposed invention to provide “encoder-like” performance without incurring the cost and complexity of a closed loop system.