Title :
Numerical analysis of HgCdTe simultaneous two-color photovoltaic infrared detectors
Author :
Bellotti, Enrico ; Orsogna, Danilo D.
Author_Institution :
Electr. & Comput. Eng. Dept., Boston Univ., MA, USA
fDate :
4/1/2006 12:00:00 AM
Abstract :
In this paper, we present a physics-based full three-dimensional (3-D) numerical simulation of simultaneous two-color medium-wave infrared long-wave infrared (MWIR-LWIR) and LWIR-very-long-wave infrared (VLWIR) detectors. The present approach avoids geometrical simplifications typical of one- or two-dimensional models that can introduce errors which are difficult to quantify. We include all the relevant material physics and the drift-diffusion equations are solved on a 3-D finite element grid. We simulate device structures that have been fabricated and characterized for operation in the MWIR-LWIR spectral regions and compare the numerical results with the measured values. Furthermore, we apply the same model to predict the performance of similar detector structures intended for operation in the LWIR-VLWIR spectral regions.
Keywords :
II-VI semiconductors; cadmium compounds; finite element analysis; infrared detectors; mercury compounds; photodetectors; semiconductor device models; 3-D finite element grid; HgCdTe; HgCdTe two-color photovoltaic infrared detectors; LWIR-very-long-wave infrared detector; drift-diffusion equation; medium-wave infrared long-wave infrared detector; Equations; Finite element methods; Infrared detectors; Numerical analysis; Numerical simulation; Photovoltaic systems; Physics; Predictive models; Solar power generation; Solid modeling; Infrared detectors; mercury cadmium telluride; multispectral detectors; numerical simulation; photovoltaic detectors; two-color detectors;
Journal_Title :
Quantum Electronics, IEEE Journal of
DOI :
10.1109/JQE.2006.871555
