%0 Generic %A Cox, Daniƫl %A Vellekoop, Ivo %D 2023 %T Data underlying the publication: Model-based aberration corrected microscopy inside a glass tube %U %R 10.4121/118c6472-dfc4-419b-ba0f-5d2baba77748.v1 %K microscopy %K adaptive optics %K model-based wavefront shaping %K aberration correction %K digital twin %K ray tracing %X

Data for the paper "Model-based aberration corrected microscopy inside a glass tube".


Microscope objectives achieve near diffraction-limited performance only when used under the conditions they are designed for. In non-standard geometries, such as thick cover slips or curved surfaces, severe aberrations arise, inevitably impairing high-resolution imaging. Correcting such large aberrations using standard adaptive optics can be challenging: existing solutions are either not suited for strong aberrations, or require extensive feedback measurements, consequently taking a significant portion of the photon budget. We demonstrate that it is possible to pre-compute the corrections needed for high-resolution imaging inside a glass tube based on a priori information only. Our ray-tracing based method achieved over an order of magnitude increase in image contrast without the need for a feedback signal.


Contents:

1. 3-D 2PEF scans of fluorescent beads inside a glass tube.

2. Brightfield microscopy images of the glass tube.

3. Parameter scans of the phase correction patterns.

4. Sensorless AO scans (Zernike mode scans).

5. Ray-traced model-based phase correction patterns for glass tube.

6. Code to recreate figures from the paper from raw data.

7. Protocol to create tube samples.

%I 4TU.ResearchData