论文信息 - Real-time optically sectioned wide-field microscopy employing structured light illumination and a CMOS detector

Real-time optically sectioned wide-field microscopy employing structured light illumination and a CMOS detector

Real-time optically sectioned microscopy is demonstrated using an AC-sensitive detection concept realized with smart CMOS image sensor and structured light illumination by a continuously moving periodic pattern. We describe two different detection systems based on CMOS image sensors for the detection and on-chip processing of the sectioned images in real time. A region-of-interest is sampled at high frame rate. The demodulated signal delivered by the detector corresponds to the depth discriminated image of the sample. The measured FWHM of the axial response depends on the spatial frequency of the projected grid illumination and is in the μm-range. The effect of using broadband incoherent illumination is discussed. The performance of these systems is demonstrated by imaging technical as well as biological samples.

Jelena Mitic | Theo Lasser | Alexandre Serov | Stephane Bourquin | Tiemo Anhut

[1] P Seitz,et al. Optical coherence topography based on a two-dimensional smart detector array. , 2001, Optics letters.

[2] Stephane Bourquin,et al. Two-dimensional smart detector array for interferometric applications , 2001 .

[3] P. Stokseth. Properties of a Defocused Optical System , 1969 .

[4] Theo Lasser,et al. Video-rate three-dimensional optical coherence tomography. , 2002, Optics express.

[5] T. Wilson,et al. Method of obtaining optical sectioning by using structured light in a conventional microscope. , 1997, Optics letters.

[6] T. Wilson,et al. Real time 3D fluorescence microscopy by two beam interference illumination , 1998 .