Refereed Conference Publications

2024

1. E. Wdowiak, M. Rogalski, M. Trusiak, “Quantitative study of phase sensitivity in immersion-based lensless digital holographic microscopy” Proceedings Volume 12852, Quantitative Phase Imaging X; 128520M (2024).

2. M. Rogalski, P. Arcab, E. Wdowiak, M. Trusiak “Phase from defocus: transport of intensity or in-line holography?” Proceedings Volume 12852, Quantitative Phase Imaging X; 128520L (2024).

3. E. Wdowiak, M. Józwik, P. Zdańkowski, M. Trusiak, “Enhancement of large area micro-printing phase quality via aberration analysis and correction,” Optica Digital Holography and Three-Dimensional Imaging 2024 (DH), p. Th1A.5, (2024).

4. P. Zdańkowski, M. Chlipała, M. Rogalski, M. Trusiak, “Bedrosian theorem problem in quantitative phase imaging,” Optica Digital Holography and Three-Dimensional Imaging 2024 (DH), p. M3A.2, (2024).

5. M. Trusiak, P. Arcab, M. Rogalski, P. Rogujski, L. Stanaszek, “Multiplexed label-free high-throughput holographic lensless method for live cell migration sensing,” Optica Imaging Congress 2024 (3D, AOMS, COSI, ISA, pcAOP), p. CTu1B.3, (2024).

6. M. Rogalski, P. Arcab, M. Trusiak, “Method for In-line Holographic Microscopy Reconstruction of Low Signal-to-noise Ratio Holograms,” Optica Imaging Congress 2024 (3D, AOMS, COSI, ISA, pcAOP), p. CTu1B.2, (2024).

7. P. Zdańkowski, M. Chlipała, M. Rogalski, M. Trusiak, “Bedrosian theorem problem in quantitative phase imaging,” Optica Digital Holography and Three-Dimensional Imaging 2024 (DH), p. M3A.2, (2024).

8. P. Arcab, M. Rogalski, L. Stanaszek, M. Trusiak, “3-channel multiplexed lensless holographic microscope for comparative examination of live cell cultures,” Quantitative Phase Imaging X, p. 92, Mar. (2024).

9. P. Zdańkowski, J. Winnik, M. Trusiak, “Gradient based common-path optical diffraction tomography,” Optica Imaging Congress 2024 (3D, AOMS, COSI, ISA, pcAOP), p. CW1B.2, (2024).

10. M. Cywińska, K. Patorski, M. Trusiak, “inPHASENet: convolutional neural network for high space-bandwidth product single-fringe-pattern phase imaging,” Quantitative Phase Imaging X, p. 83, Mar. (2024).

M. J. Lopera, Y. Nie, M. Trusiak, C. Trujillo, and H. Ottevaere, „ Characterization of common plastic microspheres through holographic Mueller matrix imaging,” Optica Laser Applications to Chemical, Security and Environmental Analysis 2024, Technical Digest Series, Optica Publishing Group, (oral presentation; not published) (2024).

M. Józwik, M. Cywińska, M. Rogalski, E. Wdowiak, M. Trusiak, “Phase measurements in Linnik interferometer with physically and numerically minimized errors,” Unconventional Optical Imaging IV, SPIE Photonics Europe, PC129960N (poster presentation; not published) (2024).

M. Trusiak, M. Rogalski, P. Arcab, E. Wdowiak, P. Zdankowski, “Enhancement and evaluation of phase imaging capabilities in lensless digital holographic microscopy,” Optics and Photonics for Advanced Dimensional Metrology III, SPIE Photonics Europe, PC129960X, (oral presentation; not published) (2024).

P. Zdankowski, J. Winnik, M. Rogalski, M. Marzejon, E. Wdowiak, M. Trusiak, “Phase shifting common path polarization grating based diffraction tomography,” Unconventional Optical Imaging IV, SPIE Photonics Europe, PC129960N, (oral presentation; not published) (2024).

2023

1. M. Cywińska, K. Patorski, M. Trusiak, “Deep variational Hilbert quantitative phase imaging,” Holography: Advances and Modern Trends VIII 12574, 158-161 (2023).

2. E. Wdowiak, M. Trusiak, “Experimental examination of lensless digital holographic microscopy imaging capabilities based on custom-designed spatial resolution targets,” Holography: Advances and Modern Trends VIII 12574, 177-180, (2023).

3. P. Zdańkowski, M. Trusiak, „Quantitative comparison of the light sources in grating-based common-path quantitative phase microscopy,” Holography: Advances and Modern Trends VIII 12574, 166-169, (2023).

4. M. Trusiak, P. Zdańkowski, M. Rogalski, K. Patorski, „Grating-based common-path quantitative phase microscopy in low photon budget regime,” Holography: Advances and Modern Trends VIII 12574, 199-203 (2023).

5. P. Zdańkowski, J. Winnik, E. Wdowiak, M. Trusiak, „Polarization grating based common path optical diffraction tomography with optimized spatio-temporal coherence and reduced speckle noise,” Optical Methods for Inspection, Characterization, and Imaging of Biomaterials VI, PC1262202, (2023).

6. M. Trusiak, M. Rogalski, B. Mirecki, P. Arcab, P. Rogujski, L. Stanaszek, „Improved multiwavelength twin image and coherent noise reduction in Gabor holographic microscopy," Optical Methods for Inspection, Characterization, and Imaging of Biomaterials VI, PC1262206, (2023).

7. P. Arcab, M. Rogalski, E. Wdowiak, M. Trusiak, „Twin Image Reduction in Two-shot Lensless Digital Holographic Microscopy via Light Source Splitting,” Optical Methods for Inspection, Optica Imaging Congress (3D, COSI, DH, FLatOptics, IS, pcAOP), Technical Digest Series (Optica Publishing Group, 2023), paper HTh4B.5 (2023).

8. M. Rogalski, P. Arcab, M. Trusiak, „Universal Neural Network for Twin Image Suppression in Lensless Holographic Microscopy,” Optica Imaging Congress (3D, COSI, DH, FLatOptics, IS, pcAOP), Technical Digest Series (Optica Publishing Group, 2023), paper HW3D.4 (2023).

9. M. Cywińska, K. Patorski, M. Trusiak, „Deep learning aided Variational Hilbert Quantitative Phase Imaging,” Optica Imaging Congress (3D, COSI, DH, FLatOptics, IS, pcAOP), Technical Digest Series (Optica Publishing Group, 2023), paper HTu3C.3 (2023).

2022

1. 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).

2. M. Rogalski, J. Szpygiel, A. Cicone, M. Trusiak, “Fast locally adaptive method for optical fringe pattern filtering,” Interferometry XXI, 1222309 (2022).

3. 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).

4. M. Trusiak, M. Rogalski, P. Arcab, B. Mirecki, P. Rogujski, L. Stanaszek, „Lensless digital holographic microscopy with enhanced signal-to-noise ratio for live neural cell imaging,” Digital Holography and 3-D Imaging 2022, W4A.6 (2022).

5. M. Rogalski, J. Winnik, J. A. Picazo-Bueno, P. Zdańkowski, V. Micó, M. Trusiak, „Open-source Algorithm for Objects 4D Tracking in Lensless Digital In-line Holographic Microscopy,” Imaging and Applied Optics Congress 2022, CM1A.3 (2022).

6. M. Trusiak, M. Rogalski, B. Mirecki, P. Arcab, P. Rogujski, L. Stanaszek, „High-throughput cell migration sensor based on lensless dark-field digital in-line holographic microscopy,” Imaging and Applied Optics Congress 2022, JW2A.49 (2022).

2021

1. P. Zdańkowski, J. Winnik, P. Gocłowski, and M. Trusiak, „Total-shear grating based optical diffraction tomography,” Biophotonics Congress: Optics in the Life Sciences 2021, DM1A.5 (2021).
2. M. Rogalski, P. Zdańkowski, M. Trusiak, „Practical Improvements Into the Fourier Ptychographic Microscopy Reconstruction Path,” Biophotonics Congress: Optics in the Life Sciences 2021, NF2C.6 (2021).
3. M. Cywińska, K. Patorski, M. Trusiak, „High space-bandwidth product phase imaging using VHQPI numerical add-on,” Biophotonics Congress: Optics in the Life Sciences 2021, NTu1C.3 (2021).
4. M. Rogalski, P. Zdańkowski, M. Trusiak, “FPM app: a MATLAB application for Fourier ptychographic microscopy reconstruction,” invited talk Proc. SPIE 11774, SPIE Optics+Optoelectronics, Holography: Advances and Modern Trends VII, 117740H (2021).
5. M. Trusiak, M. Rogalski, J. Winnik, J. A. Picazo-Bueno, and V. Micó, "4D object tracking in lensless digital in-line holographic microscopy aided by dark-field based autofocusing metric," OSA Imaging and Applied Optics Congress 2021, DW4C.5 (2021).
6. M. Cywińska, F. Brzeski, W. Krajnik, K. Patorski, and M. Trusiak, "Noise influence on DeepDensity: convolutional neural network for local fringe density map estimation," OSA Imaging and Applied Optics Congress 2021, DTh1D.5 (2021).
7. M. Rogalski, M. Pielach, M. Cywińska, A. Cicone, and M. Trusiak, "Applying an Iterative Filtering Method for Optical Fringe Patterns Preprocessing," OSA Imaging and Applied Optics Congress 2021, CF2B.4 (2021).
8. M. Trusiak, J. A. Picazo-Bueno, M. Rogalski, M. Cywińska, P. Zdańkowski, V. Micó, "Single-shot two-frame interference microscopy for robust quantitative phase imaging of fixed and dynamic samples," Proc. SPIE 11786, SPIE Optical Metrology, Optical Methods for Inspection, Characterization, and Imaging of Biomaterials V, 1178614G (2021).
9. M. Trusiak, M. Rogalski, J. Winnik, "Numerical analysis of DarkFocus metric for autofocusing in lensless digital in-line holographic microscopy," Bio-Optics: Design and Application, DTu3A.6 (2021).
10. M. Trusiak, M. Rogalski, P. Zdańkowski, J.A. Picazo-Bueno, V. Micó, "Numerical autofocusing in Gabor lensless microscopy employing computational dark-field imaging," Proc. SPIE 11774, SPIE Optics+Optoelectronics, Holography: Advances and Modern Trends VII, 117740G (2021).
11. 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, SPIE Optics+Optoelectronics, Holography: Advances and Modern Trends VII, 117740R (2021).

2020

1. P. Gocłowski, M. Trusiak, “Snap-shot fringe pattern enhancement using period-guided bidimensional empirical mode decomposition,” Frontiers in Optics 2020, Optical Society of America (16 September 2020).
2. M. Cywińska, M. Trusiak, K. Patorski, “Deep-learning Accelerated Fringe Pattern Filtration Using Variational Image Decomposition,” Frontiers in Optics 2020, Optical Society of America (14 September 2020).
3. M. Cywińska, M. Trusiak, and K. Patorski " Machine-learning based fast unsupervised variational image decomposition for fringe pattern analysis", Proc. SPIE 11490, SPIE Optical Engineering + Applications, Interferometry XX 114900D (21 August 2020).

2019

1. P. Zdankowski, M. Trusiak, D. McGloin, J.R. Swedlow , “Quasi-noise-free stimulated emission depletion microscopy imaging of thick samples using adaptive optics and block-matching 3D filtering,” in Imaging Systems and Applications 2019, OSA Technical Digest (Optical Society of America, 2019), paper ITh1C. 4.
2. M. Trusiak, K. Patorski, P. Zdańkowski, M. Cywińska, V. Mico, J.-A. Picazo-Bueno, and J. Garcia, “Upgrading a brightfield optical microscope into a robust numerically advanced interference-based phase imager,” in Computational Optical Sensing and Imaging 2019, OSA Technical Digest (Optical Society of America, 2019), paper CW4A.5.
3. M. Cywińska, M. Trusiak, A. Styk, and K. Patorski, "Variational approach in time-averaged interference microscopy for full-field vibration profilometry," in Digital Holography and Three-Dimensional Imaging 2019, OSA Technical Digest (Optical Society of America, 2019), paper M3B.5.
4. P. Zdańkowski, K. Patorski, M. Cywińska, and M. Trusiak, "Common-path two-shot binary checker grating based interference microscope for quantitative bio-phase imaging," in Digital Holography and Three-Dimensional Imaging 2019, OSA Technical Digest (Optical Society of America, 2019), paper W1B.5.
5. M. Cywińska, M. Trusiak, and K. Patorski "Biological phase sample study using variational Hilbert imaging technique", Proc. SPIE 10887, Quantitative Phase Imaging V, 108872F (4 March 2019)

2018

1. K. Patorski, M. Trusiak, “Adaptive information retrieval in automated fringe based full-field optical metrology,” Proc. SPIE 10834, Speckle 2018: VII International Conference on Speckle Metrology, 1083404, Janów Podlaski, Poland (September 2018) - invited paper.
2. M. Cywińska, M. Trusiak, K. Patorski, J.A. Picazo-Bueno, V. Mico, “Modified variational image decomposition algorithm aided by the Hilbert transform as an alternative to 2D Hilbert-Huang transform for fringe pattern phase retrieval,” Proc. SPIE 10834, Speckle 2018: VII International Conference on Speckle Metrology, 1083422, Janów Podlaski, Poland (September 2018).
3. P. Zdańkowski, M. Trusiak, M. Cywińska, J.R. Swedlow, “An adaptive optics 3D STED microscope for super-resolution imaging of thick samples with background noise suppression using digital image processing,” Proc. SPIE 10834, Speckle 2018: VII International Conference on Speckle Metrology, 108342G, Janów Podlaski, Poland (September 2018).
4. M. Cywińska, M. Trusiak, K. Patorski, "Analysis of fringe patterns with variable density using modified variational image decomposition aided by the Hilbert Transform," Proc. SPIE 10976, 21st Czech-Polish-Slovak Optical Conference on Wave and Quantum Aspects of Contemporary Optics, 1097609, Lednice, Czechia (September 2018)
5. P. Zdańkowski, V. Mico, J.A. Picazo-Bueno, K. Patorski, M. Trusiak, “Multi-beam spatially multiplexed interference microscopy for phase objects examination,” Proc. SPIE 10749, Interferometry XIX at SPIE Optical Engineering + Applications, 107490J, San Diego, California, United States (August 2018).
6. Ł. Służewski, K. Patorski, M. Trusiak, “Amplitude checker grating-based multichannel lateral shear interferometry for extended aberration sensing,” Proc. SPIE 10749, Interferometry XIX at SPIE Optical Engineering + Applications, 107490NP, San Diego, California, United States (August 2018).
7. M. Trusiak, V. Mico, J. A. Picazo-Bueno, M. Cywińska, P. Zdańkowski, K. Patorski “Moiré effect-based interference microscopy for biospecimen characterization,” Proc. SPIE 10749, Interferometry XIX at SPIE Optical Engineering + Applications, 107490H, San Diego, California, United States (August 2018) - invited paper.
8. M. Cywińska, M. Trusiak, V. Mico, K. Patorski, “Single-frame fringe pattern analysis using modified variational image decomposition aided by the Hilbert transform for fast full-field quantitative phase imaging,” Proc. SPIE 10677, Unconventional Optical Imaging at SPIE Photonics Europe, 106772B, Strasbourg, France (April 2018). Top Downloaded paper in the SPIE Digital Library in October and November 2018 (field: Metrology).

2017

1. N. Voznesenskiy, M. Voznesenskaia, D. Jha, H. Ottevaere, M. Kujawińska, M. Trusiak, K. Liżewski, “Revealing features of different optical shaping technologies by a point diffraction interferometer,” Proc. SPIE 10329, Optical Measurement Systems for Industrial Inspection X, 103293X, Munich, Germany (June 2017).

2016

1. M. Trusiak, K. Patorski, L. Sluzewski, K. Pokorski, Z. Sunderland, "Adaptive automatic data analysis in full-field fringe pattern based optical metrology," Proc. SPIE 10142, 20th Slovak-Czech-Polish Optical Conference on Wave and Quantum Aspects of Contemporary Optics, 1014209, Jasna, Slovakia (September 2016) - invited paper.
2. K. Patorski, L. Sluzewski, M. Trusiak, and K. Pokorski, "Coplanar three-beam interference and phase edge dislocations," Proc. SPIE 10142 , 20th Slovak-Czech-Polish Optical Conference on Wave and Quantum Aspects of Contemporary Optics, 101420X , Jasna, Slovakia (September 2016).
3. M. Trusiak, V. Micó, K. Patorski, J. García-Monreal, L. Sluzewski, and C. Ferreira, "Single and two-shot quantitative phase imaging using Hilbert-Huang Transform based fringe pattern analysis," Proc. SPIE 9960, Interferometry XVIII, SPIE Optics+Photonics, 99600D, San Diego, USA (September 2016). Top Downloaded paper in the SPIE Digital Library in October and November 2016 (field: Metrology).
4. M. Jozwik, M. Trusiak, K. Lizewski, J. Martinez-Carranza, N. Voznesenskiy, and M. Kujawinska, “Optical methods for measurements of surface shape in optical components for high power laser beam forming,” Proc. SPIE 10159, Laser Technology 2016: Progress and Applications of Lasers, 1015915, Jastarnia, Poland (September 2016) - invited paper.
5. M. Trusiak, K. Patorski, L. Sluzewski, and Z. Sunderland, "Evaluation of single-shot and two-shot fringe pattern phase demodulation algorithms aided by the Hilbert-Huang transform," Proc. SPIE 9890, Optical Micro- and Nanometrology VI, Photonics Europe, 98900V, Brussels, Belgium (April 2016).

2014

1. M. Trusiak, K. Patorski, and T. Tkaczyk, “Optical sectioning microscopy using two-frame structured illumination and Hilbert-Huang data processing,” Proc. SPIE 9441, XIX Polish-Slovak-Czech Optical Conference on Wave and Quantum Aspects of Contemporary Optics, 94410O, Wojanow, Poland (September 2014).
2. M. Trusiak, K. Patorski, and M. Wielgus, “Hilbert-Huang processing and analysis of complex fringe patterns,” Proc. SPIE 9203, Interferometry XVII: Techniques and Analysis, SPIE Optics+Photonics, 92030K, San Diego, USA (September 2014) – invited paper.
3. M. Trusiak, K. Patorski, and K. Pokorski, “In-plane displacement analysis using moiré interferometry aided by empirical mode decomposition based algorithm for crossed fringe pattern processing,” in 16th International Conference on Experimental Mechanics (British Society for Strain Measurement), Cambridge, UK (July 2014).
4. M. Trusiak and K. Patorski, “Optical metrology with Hilbert-Huang fringe pattern analysis for experimental mechanics,” in 16th International Conference on Experimental Mechanics Young Stress Analyst (British Society for Strain Measurement), Cambridge, UK (July 2014).
5. K. Patorski, M. Trusiak, and K. Pokorski, “Single-shot two-channel Talbot interferometry using checker grating and Hilbert-Huang fringe pattern processing,” Proc. SPIE 9132, Optical Micro- and Nanometrology V, Photonics Europe, 91320Z, Brussels, Belgium (April 2014).
6. K. Patorski, M. Trusiak, and M. Wielgus, “Fast adaptive processing of low quality fringe patterns by automated selective reconstruction and enhanced fast empirical mode decomposition,” Fringe 2013, pp. 185-190, Ed. W. Osten, Springer Verlag, Berlin Heidelberg (2014) ISBN 978-3-642-36359-7.

2013

1. M. Trusiak and K. Patorski, “Optical fringe pattern processing using empirical mode decomposition based algorithms,” in Conference on Lasers and Electro-Optics - International Quantum Electronics Conference (Optical Society of America), CH_P_24 (May 2013).

2012

1. M. Trusiak and K. Patorski, “Optical fringe pattern processing using empirical mode decomposition based algorithms,” in Conference on Lasers and Electro-Optics - International Quantum Electronics Conference (Optical Society of America), CH_P_24 (May 2013).