Physical Optics and Biophotonics Group
Group leader
prof. dr hab. Maciej Wojtkowski
Research topics
The main research expertise of the group focuses on the fundamental physical aspects of optical imaging, the development of novel optical imaging methods and demonstration of their applications to biology and medicine. The core competence of POB is in the comprehensive development of new optical methods combining low coherence interferometry, advanced spectroscopy and fluorescence. This expertise includes ability of fundamental – physical description of methods; designing, construction, and optimization of ergonomic set-ups; development of novel data processing and data acquisition software tools.
Members
- dr Dawid Borycki
- dr Andrzej Foik
- dr Karol Karnowski
- dr Katarzyna Kordecka
- mgr Jadwiga Milkiewicz
- dr Jagoda Płaczkiewicz
- dr Marcin Tabaka
- dr inż. Stefania Robakiewicz
- dr Vineeta Kaushik
- dr inż. Marta Mikuła-Zdańkowska
- dr inż. Kamil Liżewski
- dr Natalia Ochocka-Lewicka
- mgr Piotr Rutkowski
- dr hab. Dawid Borycki
- dr Michał Dąbrowski
- mgr inż. Bartłomiej Bałamut
- dr Karol Karnowski
- dr Mehdi Borjkhani
- mgr inż. Milena Mućka
- mgr inż. Lucyna Piórkowska
- mgr inż. Anna Galińska
- dr Anna Posłuszny
Publications
2021
Liebert, A., Torricelli, A., Pifferi, A., Contini, D., Borycki, D., Colombo, L., Pagliazzi, M., Sawosz, P., Samaei, S., Wojtkiewicz, S., Durduran, T., Torricelli, A., Torricelli, A., Pifferi, A., Pifferi, A., & Liebert, A.
Performance assessment of laser sources for time-domain diffuse correlation spectroscopy.
Biomedical Optics Express, https://doi.org/10.1364/BOE.432363
Liu, W., Qian, R., Xu, S., Chandra Konda, P., Jönsson, J., Harfouche, M., Borycki, D., Cooke, C., Berrocal, E., Dai, Q., Wang, H., & Horstmeyer, R.
Fast and sensitive diffuse correlation spectroscopy with highly parallelized single photon detection.
APL Photonics, https://doi.org/10.1063/5.0031225
Auksorius, E., Borycki, D., & Wojtkowski, M.
Multimode fiber enables control of spatial coherence in Fourier-domain full-field optical coherence tomography for in vivo corneal imaging.
Optics Letters, https://doi.org/10.1364/OL.417178
Untracht, G. R., Karnowski, K., & Sampson, D. D.
Imaging the small with the small: Prospects for photonics in micro-endomicroscopy for minimally invasive cellular-resolution bioimaging.
APL Photonics, https://doi.org/10.1063/5.0052258
Consejo, A., Jiménez-García, M., Issarti, I., & Rozema, J. J.
Detection of Subclinical Keratoconus With a Validated Alternative Method to Corneal Densitometry.
Translational Vision Science & Technology, https://doi.org/10.1167/TVST.10.9.32
Tack, M., Kreps, E. O., Zaeytijd, J. De, & Consejo, A.
Scheimpflug-Based Analysis of the Reflectivity of the Cornea in Marfan Syndrome.
Translational Vision Science & Technology, https://doi.org/10.1167/TVST.10.9.34
Liebert, A., Torricelli, A., Pifferi, A., Contini, D., Borycki, D., Colombo, L., Pagliazzi, M., Sawosz, P., Samaei, S., Wojtkiewicz, S., Durduran, T., Torricelli, A., Torricelli, A., Pifferi, A., Pifferi, A., & Liebert,
A. Performance assessment of laser sources for time-domain diffuse correlation spectroscopy.
Biomedical Optics Express, https://doi.org/10.1364/BOE.432363
Frankowski, J. C., Foik, A. T., Tierno, A., Machhor, J. R., Lyon, D. C., & Hunt, R. F.
Traumatic brain injury to primary visual cortex produces long-lasting circuit dysfunction.
Communications Biology, https://doi.org/10.1038/s42003-021-02808-5
Boguslawski, J., Palczewska, G., Tomczewski, S., Milkiewicz, J., Kasprzycki, P., Stachowiak, D., Komar, K., Marzejon, M. J., Sikorski, B. L., Hudzikowski, A., Głuszek, A., Łaszczych, Z., Karnowski, K., Soboń, G., Palczewski, K., & Wojtkowski, M.
In vivo imaging of the human eye using a two-photon excited fluorescence scanning laser ophthalmoscope.
The Journal of Clinical Investigation, https://doi.org/10.1172/JCI154218
2022
Auksorius, E., Borycki, D., Wegrzyn, P., Žičkienė, I., Adomavičius, K., Sikorski, B. L., & Wojtkowski, M.
Multimode fiber as a tool to reduce cross talk in Fourier-domain full-field optical coherence tomography.
Optics Letters, https://doi.org/10.1364/OL.449498
Stachowiak, D., Marzejon, M., Bogusławski, J., Łaszczych, Z., Komar, K., Wojtkowski, M., & Soboń, G.
Femtosecond Er-doped fiber laser source tunable from 872 to 1075 nm for two-photon vision studies in humans.
Biomedical Optics Express, https://doi.org/10.1364/BOE.452609
Curatolo, A., Borycki, D., Auksorius, E., Wojtkowski, M., Wegrzyn, P., & Tomczewski, S.
Light-adapted flicker optoretinograms captured with a Spatio-Temporal Optical Coherence-Tomography (STOC-T) system.
Biomedical Optics Express, https://doi.org/10.1364/BOE.444567
Choi, E. H., Suh, S., Foik, A. T., Leinonen, H., Newby, G. A., Gao, X. D., Banskota, S., Hoang, T., Du, S. W., Dong, Z., Raguram, A., Kohli, S., Blackshaw, S., Lyon, D. C., Liu, D. R., Palczewski, K., & Suh, S.
In vivo base editing rescues cone photoreceptors in a mouse model of early-onset inherited retinal degeneration.
Nature Communications, https://doi.org/10.1038/s41467-022-29490-3