Physics Maths Engineering
Baekcheon Seong,
Woovin Kim,
Younghun Kim,
Jong-Seok Lee,
Jeonghoon Yoo,
Chulim Joo
Peer Reviewed
Abstract Several image-based biomedical diagnoses require high-resolution imaging capabilities at large spatial scales. However, conventional microscopes exhibit an inherent trade-off between depth-of-field (DoF) and spatial resolution, and thus require objects to be refocused at each lateral location, which is time-consuming. Here, we present a computational imaging platform, termed E2E-BPF microscope, which enables large-area, high-resolution imaging of large-scale objects without serial refocusing. This method involves a physics-incorporated, deep-learned design of binary phase filter (BPF) and jointly optimized deconvolution neural network, which altogether produces high-resolution, high-contrast images over extended depth ranges. We demonstrate the method through numerical simulations and experiments with fluorescently labeled beads, cells and tissue section, and present high-resolution imaging capability over a 15.5-fold larger DoF than the conventional microscope. Our method provides highly effective and scalable strategy for DoF-extended optical imaging system, and is expected to find numerous applications in rapid image-based diagnosis, optical vision, and metrology.
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Show by month | Manuscript | Video Summary |
---|---|---|
2024 December | 40 | 40 |
2024 November | 63 | 63 |
2024 October | 46 | 46 |
2024 September | 64 | 64 |
2024 August | 36 | 36 |
2024 July | 46 | 46 |
2024 June | 30 | 30 |
2024 May | 43 | 43 |
2024 April | 44 | 44 |
2024 March | 10 | 10 |
Total | 422 | 422 |