Title of article
Mid-infrared photoconductive properties of heavily Bi-doped PbTe p–n homojunction diode grown by liquid-phase epitaxy
Author/Authors
Yasuda، نويسنده , , Arata and Suto، نويسنده , , Ken-ichi Takahashi، نويسنده , , Yatsuhiro and Nishizawa، نويسنده , , Jun-ichi، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2014
Pages
4
From page
609
To page
612
Abstract
We fabricated a heavily Bi-doped (xBi ≈ 2 × 1019 cm−3) PbTe p–n homojunction diode that detects mid-infrared wavelengths by the temperature difference method (TDM) under controlled vapor pressure (CVP) liquid phase epitaxy (LPE). The photocurrent density produced by the heavily Bi-doped diode sample is approximately 20 times and 3 times greater than that produced by an undoped and heavily In-doped sample, respectively. By varying the ambient temperature from 15 K to 225 K, the detectable wavelength is tunable from 6.18 μm to 4.20 μm. The peak shift of the detectable wavelength is shorter in the heavily Bi-doped sample than in the undoped sample, consistent with our previously proposed model, in which Bi–Bi nearest donor–acceptor pairs are formed in the heavily Bi-doped PbTe liquid phase epitaxial layer. Current–voltage (I–V) measurements of the heavily Bi-doped diode sample under infrared exposure at 77 K indicated a likely leak in the dark current, arising from the deeper levels. From the dark I–V measurements, the activation energy of the deep level was estimated as 0.067 eV, close to the energy of the deep Tl-doped PbTe acceptor layer. We conclude that the deep level originates from the Tl-doped p-type epitaxial layer.
Keywords
photo conductivity , Narrow band gap semiconductors , Highly-Bi-doped PbTe , liquid phase epitaxy , Mid-infrared detector
Journal title
Infrared Physics & Technology
Serial Year
2014
Journal title
Infrared Physics & Technology
Record number
2376791
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