We present a simplified approach for imaging a linear diode bar laser for application as an optical stretcher within a microfluidic geometry. We have recently shown that these linear sources can be used to measure cell mechanical properties; however, the source geometry creates imaging challenges. To minimize intensity losses and simplify implementation within microfluidic systems without the use of expensive objectives, we combine aspheric and cylindrical lenses to create a 1:1 image of the source at the stretcher focal plane and demonstrate effectiveness by measuring the deformation of human red blood cells and neutrophils.
Keywords: (140.2020) Diode lasers; (140.5960) Semiconductor lasers; (140.7010) Laser trapping; (170.0170) Medical optics and biotechnology; (170.0180) Microscopy; (170.1530) Cell analysis; (170.4520) Optical confinement and manipulation; (350.4855) Optical tweezers or optical manipulation.