Print Email Facebook Twitter Development of a DMD-based fluorescence microscope Title Development of a DMD-based fluorescence microscope Author Chakrova, N. Rieger, B. Stallinga, S. Faculty Applied Sciences Department ImPhys/Imaging Physics Date 2015-12-31 Abstract We present a versatile fluorescence microscope, built by complementing a conventional fluorescence microscope with a digital micro-mirror device (DMD) in the illumination path. Arbitrary patterns can be created on the DMD and projected onto the sample. This patterned illumination can be used to improve lateral and axial resolution over the resolution of a wide-field microscope, as well as to reduce the illumination dose. Different illumination patterns require different reconstruction strategies and result in an image quality similar to confocal or structured illumination microscopy. We focus on the optical design and characterization of a DMD-based microscope. Estimation of the optical quality of the microscope has been carried out by measuring the modulation transfer function from edge profiles. We have obtained optically sectioned images by applying multi-spot illumination patterns followed by digital pinholing. The sectioning capabilities of our DMD-based microscope were estimated from the dependence of the signal-to-background and signalto-noise ratios on the pitch of the projected multi-spot patterns and the size of the digital pinhole. In addition, we provide an outlook on the use of pseudo-random illumination patterns for achieving both sectioning and resolution enhancement Subject fluorescence microscopydigital micro-mirror devicesectioningdigital pinholing To reference this document use: http://resolver.tudelft.nl/uuid:6ece9485-720f-48b6-a383-ae998664e9ff Publisher SPIE ISBN 978-162841420-2 Source Proceedings of SPIE, International Socviety for Optical Engineering, vol. 9330 Part of collection Institutional Repository Document type conference paper Rights (c) 2015 The Authors and SPIE Files PDF 322007.pdf 820.56 KB Close viewer /islandora/object/uuid:6ece9485-720f-48b6-a383-ae998664e9ff/datastream/OBJ/view