Structured illumination microscopy using a photonic chip
Permanent lenke
https://hdl.handle.net/10037/31146Dato
2020-04-11Type
Journal articleTidsskriftartikkel
Peer reviewed
Forfatter
Helle, Øystein Ivar; Dullo, Firehun Tsige; Lahrberg, Marcel; Tinguely, Jean-Claude; Hellesø, Olav Gaute; Ahluwalia, Balpreet SinghSammendrag
Structured illumination microscopy (SIM) enables live-cell super-resolution imaging of subcellular structures at high speeds. At present, linear SIM uses free-space optics to illuminate the sample with the desired light patterns; however, such arrangements are prone to misalignment and add cost and complexity to the microscope. Here, we present an alternative photonic chip-based two-dimensional SIM approach (cSIM) in which the conventional glass sample slide in a microscope is replaced by a planar photonic chip that importantly both holds and illuminates the specimen. The photonic chip reduces the footprint of the light illumination path of SIM to around 4 × 4 cm2. An array of optical waveguides on the chip creates standing wave interference patterns at different angles, which illuminate the sample via evanescent fields. High-refractive-index silicon nitride waveguides allow a 2.3 times enhancement in imaging spatial resolution, exceeding the usual 2 times limit of SIM. In summary, cSIM offers a simple, stable and affordable approach for performing two-dimensional super-resolution imaging over a large field of view.
Forlag
Nature Publishing GroupSitering
Helle ØI, Dullo FT, Lahrberg M, Tinguely J, Hellesø OG, Ahluwalia BS. Structured illumination microscopy using a photonic chip. Nature Photonics. 2020;14:431-438Metadata
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