Project OPUS

Publications

• 1. M. Rogalski, M. Cywińska, A. Ahmad, K. Patorski, V. Micó, B. S. Ahluwalia and M. Trusiak, "Hilbert phase microscopy based on pseudo thermal illumination in Linnik configuration," Opt. Lett. 47(22), 5793-5796 (2022).
• 2. M. Cywińska, M. Rogalski, F. Brzeski, K. Patorski, and M. Trusiak, "DeepOrientation: convolutional neural network for fringe pattern orientation map estimation," Opt. Express 30(23), 42283-42299 (2022).
• 3. W. Lipke, J. Winnik, and M. Trusiak, "Numerical analysis of the effect of reduced temporal coherence in quantitative phase microscopy and tomography," Opt. Express 30, 21241-21257 (2022).
• 4. M. Rogalski, M. Pielach, A. Cicone, P. Zdańkowski, L. Stanaszek, K. Drela, K. Patorski, B. Lukomska, M. Trusiak, "Tailoring 2D fast iterative filtering algorithm for low-contrast optical fringe pattern preprocessing,"Optics and Lasers in Engineering 155, 107069 (2022)
• 5. P. Zdańkowski, L. F. Lopez, G. P. Acuna, and F. D. Stefani, “Nanometer Resolution Imaging and Tracking of Single Fluorophores by Sequential Structured Illumination”, ACS Photonics Article ASAP, DOI: 10.1021/acsphotonics.2c01391 (2022).
• 6. M. Trusiak, K. Patorski, P. Zdańkowski, J. Winnik, W. Lipke, “Common-path grating-based interferometers with altered temporal and spatial coherence of illumination for quantitative phase microscopy and tomography,” Interferometry XXI, 122230G (2022).
• 7. M. Rogalski, J. Szpygiel, A. Cicone, M. Trusiak, “Fast locally adaptive method for optical fringe pattern filtering,” Interferometry XXI, 1222309 (2022).
• 8. M. Rogalski, M. Trusiak, „Quantitative Phase Microscopy from Defocused Images with a Common Brightfield Microscope,” Digital Holography and 3-D Imaging 2022, Th2A.7 (2022).
• 9. P. Zdańkowski, J. Winnik, K. Patorski, P. Gocłowski, M. Ziemczonok, M. Józwik, M. Kujawińska, and M. Trusiak, "Common-path intrinsically achromatic optical diffraction tomography," Biomed. Opt. Express 12, 4219-4234 (2021).
• 10. P. Gocłowski, M. Cywińska, A. Ahmad, B. Ahluwalia, and M. Trusiak, "Single-shot fringe pattern phase retrieval using improved period-guided bidimensional empirical mode decomposition and Hilbert transform," Opt. Express 29, 31632-31649 (2021).
• 11. M. Trusiak, J. Picazo-Bueno, M. Rogalski, M. Cywinska, P. Zdańkowski, V. Micó,"Single-shot two-frame interference microscopy for robust quantitative phase imaging of fixed and dynamic samples," Optical Methods for Inspection, Characterization, and Imaging of Biomaterials V, 11786 (2021)
• 12. M. Trusiak, "Fringe analysis: single-shot or two-frames? Quantitative phase imaging answers," Opt. Express 29, 18192-18211 (2021).
• 13. M. Cywińska, F. Brzeski, W. Krajnik, K. Patorski, M. Trusiak, "Fringe pattern background and amplitude modulation in DeepDensity: convolutional neural network for local fringe density map estimation," Proc. SPIE 11774, Holography: Advances and Modern Trends VII, 117740R (2021)
• 14. P. Zdańkowski, J. Winnik, P. Gocłowski, and M. Trusiak, "Total-shear grating based optical diffraction tomography," in Biophotonics Congress (2021), paper DM1A.5.
• 15. M. Rogalski, P. Zdańkowski, and M. Trusiak, "Practical Improvements Into the Fourier Ptychographic Microscopy Reconstruction Path," in Biophotonics Congress (2021), paper NF2C.6.