Assessment of lateral resolution of single random phase encoded lensless imaging systems

In this paper, we have used the angular spectrum propagation method and numerical simulations of a single random phase encoding (SRPE) based lensless imaging system, with the goal of quantifying the spatial resolution of the system and assessing its dependence on the physical parameters of the system. Our compact SRPE imaging system consists of a laser diode that illuminates a sample placed on a microscope glass slide, a diffuser that spatially modulates the optical field transmitting through the input object, and an image sensor that captures the intensity of the modulated field. We have considered two-point source apertures as the input object and analyzed the propagated optical field captured by the image sensor. The captured output intensity patterns acquired at each lateral separation between the input point sources were analyzed using a correlation between the captured output pattern for the overlapping point-sources, and the captured output intensity for the separated point sources. The lateral resolution of the system was calculated by finding the lateral separation values of the point sources for which the correlation falls below a threshold value of 35% which is a value chosen in accordance with the Abbe diffraction limit of an equivalent lens-based system. A direct comparison between the SRPE lensless imaging system and an equivalent lens-based imaging system with similar system parameters shows that despite being lensless, the performance of the SRPE system does not suffer as compared to lens-based imaging systems in terms of lateral resolution. We have also investigated how this resolution is affected as the parameters of the lensless imaging system are varied. The results show that SRPE lensless imaging system shows robustness to object to diffuser-to-sensor distance, pixel size of the image sensor, and the number of pixels of the image sensor. To the best of our knowledge, this is the first work to investigate a lensless imaging system's lateral resolution, robustness to multiple physical parameters of the system, and comparison to lens-based imaging systems.

Automated summary

In this study, we used the angular spectrum propagation method to analyze the spatial resolution of a single random phase encoding (SRPE) based lensless imaging system. We found that the SRPE system has comparable lateral resolution to lens-based imaging systems, despite being lensless. Additionally, we investigated the robustness of the SRPE system to variations in physical parameters such as object to diffuser-to-sensor distance and pixel size of the image sensor. This research provides valuable insights into the lateral resolution and robustness of lensless imaging systems.