We found new ways to decouple refractive index from cell thickness for cancer cells during flow:
G. Dardikman, Y. N. Nygate, I. Barnea, N. A. Turko, G. Singh, B. Javidi, and N. T. Shaked, “Integral refractive index imaging of flowing cell nuclei using quantitative phase microscopy combined with fluorescence microscopy,” Biomedical Optics Express, Vol. 9, Issue 3, pp. 1177-1189, 2018
We found new ways to solve the unwrapping problems in the cell phase profiles measured:
G. Dardikman, S. Mirsky, M. Habaza, Y. Roichman, and N. T. Shaked, “Angular phase unwrapping of optically thick objects with a thin dimension,” Optics Express, Vol. 25, Issue 4, pp. 3347-3357, 2017
G. Dardikman*, G. Singh*, and N. T. Shaked, “Four dimensional phase unwrapping of dynamic objects in digital holography,” Optics Express, Vol. 26, Issue 4, pp. 3772-3778, 2018
We also demonstrated multiplexing holography:
Y. Nygate, G. Singh, N. A. Turko, and N. T. Shaked, “Simultaneous off-axis multiplexed holography and regular fluorescence microscopy of biological cells,” Optics Letters, Vol. 43, No. 1, pp. 2587-2590, 2018
G. Dardikman, N. A. Turko, N. Nativ, S. K. Mirsky, and N. T. Shaked, “Optimal spatial bandwidth capacity in multiplexed off-axis holography for rapid quantitative phase reconstruction and visualization,” Optics Express, Vol. 25, No. 26, pp. 33400-33415, 2017
G. Dardlkman and N. T. Shaked, “Is multiplexed off-axis holography for quantitative phase imaging more spatial bandwidth-efficient than on-axis holography?,” Accepted to Journal of Optical Society of America A, 2018
L. Wolbromsky, M. Dudaie, S. Shinar, M. Dudaie, and N. T. Shaked, “Multiplane imaging with extended field-of-view using a quadratically distorted grating,” Optics Communications, Vol. 463, 125399, pp. 1-5, 2020
These works help in making the ERC project goals become more useful for clinical implementations, allowing the rapid analysis of the quantitative phase maps of cancer cells.