Title :
Dry plasma technology for in-situ vacuum processing of HgCdTe infrared photodetectors
Author :
Smith, E.P.G. ; Winchester, K.J. ; Musca, C.A. ; Dell, J.M. ; Faraone, L.
Author_Institution :
Dept. of Electr. & Electron. Eng., Western Australia Univ., Nedlands, WA, Australia
Abstract :
A fabrication procedure using dry plasma process technology has been developed for HgCdTe photoconductive detectors. Reactive ion etching (RIE) was used after the mesa delineation of detector elements to open contact areas in the passivation layer for metal deposition, and to take advantage of the increase in effective doping in HgCdTe material when it is exposed to RIE. The increase in the n-type doping in the contact areas provides a potential barrier to reduce carrier recombination at the semiconductor/metal interface, thereby improving detector responsivity, and removing one masking step from the fabrication process. Mid-wavelength infrared HgCdTe photoconductors fabricated using this procedure give a background limited Dλ * of 2.0×1011 cmHz1/2W-1 at an operating temperature of 80 K
Keywords :
II-VI semiconductors; cadmium compounds; infrared detectors; mercury compounds; passivation; photodetectors; plasma materials processing; sputter etching; 80 K; HgCdTe; HgCdTe photoconductive detectors; RIE; carrier recombination; detector responsivity; dry plasma technology; fabrication process; in-situ vacuum processing; mesa delineation; mid-wavelength infrared HgCdTe photoconductors; n-type doping; passivation layer; potential barrier; reactive ion etching; semiconductor/metal interface; Detectors; Etching; Fabrication; Inorganic materials; Passivation; Photoconductivity; Plasma applications; Plasma materials processing; Semiconductor device doping; Vacuum technology;
Conference_Titel :
Semiconducting and Insulating Materials Conference, 2000. SIMC-XI. International
Conference_Location :
Canberra, ACT
Print_ISBN :
0-7803-5814-7
DOI :
10.1109/SIM.2000.939252
