Maskless imaging of dense samples using pixel super-resolution based multi-height lensfree on-chip microscopy

Lensfree in-line holographic microscopy offers sub-micron resolution over a large field-of-view (e. g., similar to 24 mm(2)) with a cost-effective and compact design suitable for field use. However, it is limited to relatively low-density samples. To mitigate this limitation, we demonstrate an on-chip imaging approach based on pixel super-resolution and phase recovery, which iterates among multiple lensfree intensity measurements, each having a slightly different sample-to-sensor distance. By digitally aligning and registering these lensfree intensity measurements, phase and amplitude images of dense and connected specimens can be iteratively reconstructed over a large field-of-view of similar to 24 mm(2) without the use of any spatial masks. We demonstrate the success of this multi-height in-line holographic approach by imaging dense Papanicolaou smears (i.e., Pap smears) and blood samples. (C)2012 Optical Society of America