Fabrication of low leakage-current backside illuminated photodiodes
First Claim
1. A diode, comprising:
- a single continuous piece, optically transparent semiconductor substrate, having a front surface and a rear surface, having-a portion with changed properties which forms a first region and a second region within said single continuous substrate, between which a crystalline lattice remains uninterrupted, said second region being a conductive region adapted for use in applying a bias thereto; and
at least one structure of opposite conductivity type to a conductivity type of the semiconductor substrate, formed in said semiconductor substrate, adjacent a front surface thereofwherein said second region has a sheet resistivity between 2 and 20 Ω
per square.
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Abstract
Ultra-low leakage current backside-illuminated semiconductor photodiode arrays are fabricated using a method of formation of a transparent, conducting bias electrode layer that avoids high-temperature processing of the substrate after the wafer has been gettered. As a consequence, the component of the reverse-bias leakage current associated with strain, crystallographic defects or impurities introduced during elevated temperature processing subsequent to gettering can be kept extremely low. An optically transparent, conductive bias electrode layer, serving as both an optical window and an ohmic backside equipotential contact surface for the photodiodes, is fabricated by etching through the polysilicon gettering layer and a portion of the thickness of heavily-doped crystalline silicon layer formed within, and near the back of, the substrate during the gettering process.
69 Citations
1 Claim
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1. A diode, comprising:
-
a single continuous piece, optically transparent semiconductor substrate, having a front surface and a rear surface, having-a portion with changed properties which forms a first region and a second region within said single continuous substrate, between which a crystalline lattice remains uninterrupted, said second region being a conductive region adapted for use in applying a bias thereto; and at least one structure of opposite conductivity type to a conductivity type of the semiconductor substrate, formed in said semiconductor substrate, adjacent a front surface thereof wherein said second region has a sheet resistivity between 2 and 20 Ω
per square.
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Specification