Haixuan Huang

Realization of optical perfect shuffle with microoptical array element

A new method to realize the optical perfect shuffle (PS) with a microoptical array element is presented in this paper. The whole process is simulated by computer, and parameters of the structure to fabricate the experimental component are given. The microoptical array element has been fabricated by introducing very large scale integration (VLSI), stepping photolithography and reactive iron etching (RIE), which can realize 8-channel PS transformation. Experiments, tests and analysis have been done using the array element. The experimental results show that the method proposed in this paper agrees well with theoretical expectation. This success of the experiment lays a good foundation for us to do further research on realization of optical switching and communication through cascade multilevel PS interconnection.

The theoretical analysis and design of perfect shuffle interconnection using micro-optical array element

The distributing formulas of the complex amplitude and the light intensity at output plane are presented in this paper, based on the new method using micro-optical array structure to achieve Perfect Shuffle (PS) transformation presented by us, using the theories of information optics and binary optics. According to the formulas, the technical design and fabricated parameters are completed and exported. It’s indicated that the theoretical analysis and designs accords well with practices in the sequent fabrications and testing experiments. The conclusions of the theoretical analysis in this paper are very important and significative for guiding the realization of optical switching and optical interconnection by using micro optical structure with the diffractive method.

Designing new integrated LGP of backlight system using binary optical technique

A method of designing new light guide plate (LGP) of backlight system is presented in this paper using binary optical technique. Only one such new micro-optical LGP can integrate the function of multi-layer structures which include LGP, diffusion sheet and two prism sheets in the backlight system. The cell aperture’s structure is designed by using ZEMAX software, and the computer’s simulative result is given. It indicates that the output light uniformity of new LGP can reach 96.06%, axis direction center luminance is enhanced 1.52 times than the traditional approximately.

Research on experiments of perfect shuffle implementation using micro-optical array element

In this paper, a binary optical array element which can realize 8-channel PS transformation is fabricated with very large scale integration (VLSI), stepping photolithography and reactive ion etching (RIE). Using the element, we perform experiments of the PS transformation, tests and analysis. The efficiency and cross talk of each channel are measured when only one channel has been reserved while other channels have been closed. The result indicates that the method proposed to realize the PS transformation by using the micro-optical array element agrees well with theoretical expectation. This success of the experiment lays a good foundation for us to do further research on optical transformation through multilevel interconnection.