Abstract
AbstractDigital holographic microscopy (DHM) has become an attractive imaging tool for the analysis of living cells and histological tissues. The telecentric DHM (TDHM) is a configuration of DHM that lightens the computation load with a priori aberration corrections. However, TDHM requires a well-aligned optical pipeline to optimize its resolution and image quality (IQ), which has traditionally complicated the alignment process. Further deriving from the optical interference functions, we offer a set of methodologies to simplify TDHM design and alignment by determining the optimal +1 order position, which depends on the object-reference beam angle and the interference plane rotation angle. The methods are then experimentally tested and verified on a TDHM system by imaging living HeLa cells in suspension.
Publisher
Cold Spring Harbor Laboratory