Low-cost lithography for fabrication of one-dimensional diffraction gratings by using laser diodes

These two beam interfere with each other and generate interference fringes, which are exposed onto the photoresist. After being developed, the exposed photoresist shows a one-dimensional surface-relief grating structures. In conventional lithography system based on the principle mentioned above, gas lasers, such as He-Cd laser are widely employed. The cost and footprint of such laser sources, however, are always high and bulky. A low-cost system by using cost-efficient 405 nm laser diodes is then proposed for solving these problems. A key parameter, coherence length that determines one-dimensional grating width is systematically studied. A fabrication system based on the interference lithography principle and 405 nm laser diodes is constructed for evaluation of the feasibility of using laser didoes as laser source. Gratings with 570 nm pitch are fabricated and evaluated by an atomic force microscope. Experiments results show that low-cost 405 nm laser diode is an effective laser source for one-dimensional grating fabrication. © (2015) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.