Title :
Applications of LCoS-based adaptive optical elements in microscopy
Author :
Hermerschmidt, Andreas ; Haffner, Jan ; Haist, Tobias ; Osten, Wolfgang
Author_Institution :
Holoeye Photonics AG, Berlin
Abstract :
Liquid crystal on silicon (LCoS)-based spatial light modulators (SLMs) are versatile adaptive optical elements. In microscopy, among their applications are aberration sensing and correction in wide-field microscopy and also the implementation of holographic optical tweezers. For aberration correction, the required scene-based wavefront sensing can be implemented as a modified correlation-based Shack-Hartmann approach where a high-resolution SLM first senses and then corrects the aberrations. For the implementation of holographic optical tweezers, the SLM serves as a variable optical beam-splitter which is addressed with holograms computed by fast algorithms implemented on the graphics processing unit (GPU) of a common PC almost in real-time.
Keywords :
aberrations; adaptive optics; electron microscopy; holography; liquid crystal on silicon; optical beam splitters; optical microscopy; radiation pressure; spatial light modulators; wavefront sensors; aberration correction; aberration sensing; adaptive optical elements; correlation-based Shack-Hartmann approach; fast algorithms; graphics processing unit; holographic optical tweezers; liquid crystal on silicon; scene-based wavefront sensing; spatial light modulators; variable optical beam-splitter; wide-field microscopy; Adaptive optics; Graphics; Holographic optical components; Holography; Liquid crystal on silicon; Optical beams; Optical computing; Optical microscopy; Optical modulation; Optical sensors;
Conference_Titel :
Optical MEMs and Nanophotonics, 2008 IEEE/LEOS Internationall Conference on
Conference_Location :
Freiburg
Print_ISBN :
978-1-4244-1917-3
Electronic_ISBN :
978-1-4244-1918-0
DOI :
10.1109/OMEMS.2008.4607842
