Study of the Pixel-Pitch Reduction for HgCdTe Infrared Dual-Band Detectors

摘要

The third generation of HgCdTe infrared-detector focal-plane arrays (FPAs) should be able to detect simultaneously in two spectral bands.The feasibility of this type of dual-band detectors has already been shown in our laboratory with a pixel size of 50 mum in the 3-5-mum wavelength range.To improve the detector resolution,it is necessary to decrease the pixel pitch.Dry etching is a key process technology to fulfill this goal because of the high aspect-ratio structures needed (typically 10-15-mum deep and 2-5-mum wide trenches).In this paper,we present results of a parametric study on HgCdTe dry etching,as well as results obtained on detector arrays made with the dry-etching technique.The etching study has been done in a microwave plasma reactor with the aim of controlling the surface roughness,the etch rate,and the slope of the trench side.We show how these parameters are influenced by the reactive gas-mixture composition (based on CH_4,H_2,and Ar) and the substrate self-bias.We show how polymer film deposition can prevent etching from occurring but can improve anisotropy We show some examples of results obtained when manufacturing the trenches that separate the pixels,keeping a high fill factor,and anisotropic etching.We also show results of the material surface characterizations done with scanning electron microscopy (SEM) and Hall effect measurements.These studies allow us to evaluate and compare the damages done to the HgCdTe surface with different etching conditions.Our best process allows us to make a light electrical damage,confined to less than a micron deep in the material.Using the dry-etching process,we have developed detector arrays fabricated with a pixel pitch as low as 30 mum.We finally present the results of the first electrical characterizations made on these arrays,showing promising results for the development of high-resolution dual-band detectors.