Tuesday, June 26, 2012

1206.5368 (Toyoaki Suzuki et al.)

Molecular-beam epitaxial growth of a far-infrared transparent electrode
for extrinsic Germanium photoconductors
   [PDF]

Toyoaki Suzuki, Takehiko Wada, Kazuyuki Hirose, Hironobu Makitsubo, Hidehiro Kaneda
We have evaluated the optical and electrical properties of a far-infrared (IR) transparent electrode for extrinsic germanium (Ge) photoconductors at 4 K, which was fabricated by molecular beam epitaxy (MBE). As a far-IR transparent electrode, an aluminum (Al)-doped Ge layer is formed at well-optimized doping concentration and layer thickness in terms of the three requirements: high far-IR transmittance, low resistivity, and excellent ohmic contact. The Al-doped Ge layer has the far-IR transmittance of >95 % within the wavelength range of 40--200 microns, while low resistivity (~5 ohm-cm) and ohmic contact are ensured at 4 K. We demonstrate the applicability of the MBE technology in fabricating the far-IR transparent electrode satisfying the above requirements.
View original: http://arxiv.org/abs/1206.5368

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