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Spatial frequency modulation for imaging (SPIFI) has traditionally employed a time-varying spatial modulation of the excitation beam. Here, for the first time to our knowledge, we introduce single-shot SPIFI, where the spatial frequency modulation is imposed across the entire spatial bandwidth of the optical system simultaneously enabling single-shot operation.
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Scarbrough, Daniel; Cottrell, Seth; Czerski, John; Kingsolver, Ian; Field, Jeff; Bartels, Randy; Squier, Jeff (, Applied Optics)Spatialfrequency modulationimaging (SPIFI) is a structured illumination single pixel imaging technique that is most often achieved via a rotating modulation disk. This implementation produces line images with exposure times on the order of tens of milliseconds. Here, we present a new architecture for SPIFI using a polygonal scan mirror with the following advances: (1) reducing SPIFI line image exposure times by 2 orders of magnitude, (2) facet-to-facet measurement and correction for polygonal scan design, and (3) a new anamorphic magnification scheme that improves resolution for long working distance optics.more » « less
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Worts, Nathan; Czerski, John; Jones, Jason; Field, Jeffrey J.; Bartels, Randy; Squier, Jeff (, International Journal of Optomechatronics)
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Allende_Motz, Alyssa_M; Czerski, John; Adams, Daniel_E; Durfee, Charles; Bartels, Randy; Field, Jeff; Hoy, Christopher_L; Squier, Jeff (, Optics Express)Spatial frequency modulated imaging (SPIFI) enables the use of an extended excitation source for linear and nonlinear imaging with single element detection. To date, SPIFI has only been used with fixed excitation source geometries. Here, we explore the potential for the SPIFI method when a spatial light modulator (SLM) is used to program the excitation source, opening the door to a more versatile, random access imaging environment. In addition, an in-line, quantitative pulse compensation and measurement scheme is demonstrated using a new technique, spectral phase and amplitude retrieval and compensation (SPARC). This enables full characterization of the light exposure conditions at the focal plane of the random access imaging system, an important metric for optimizing, and reporting imaging conditions within specimens.more » « less
