Journal Name:
Journal of ELECTRONIC MATERIALS
Volume:
46
Issue:
8
Pages From:
4848
To:
4856
Date:
الثلاثاء, أغسطس 1, 2017
Abstract:
In this work, the formation and properties of Ga2S3 thin films deposited onto
polycrystalline Ge substrates are studied by means of scanning electron microscopy,
energy dispersive x-ray analyzer, Raman spectroscopy, x-ray
diffraction techniques, ultraviolet–visible light spectrophotometry in the
range of 300–1100 nm and by ac signal power spectroscopy in the range of 0.2–
3.0 GHz. The first four techniques allowed the determining of the stoichiometry,
the vibrational frequencies, the lattice parameters, the plane orientations,
the strain and the defect density for the interface. In addition, it was
observed that the Ge/Ga2S3 interface exhibited conduction and valence band
offsets of 0.83 eV and 0.82 eV, respectively, and the real part of the dielectric
spectra experimentally exhibited four resonance peaks centered at frequencies
above 357 THz. Moreover, the computational analysis of the imaginary part of
the dielectric constant via the Drude–Lorentz model has shown that the
interface wave filtering properties are controlled by the electron–plasmon
coupling with plasma frequencies in the range of 1.33–2.30 GHz. The drift
mobility of electrons in this range was found to be 15.61 cm2/Vs. The real
ability of the interface to control wave propagation was confirmed with ac
signals propagating tests. The plasmonic features of the interface nominate it
for use in microwave cavities and as wireless terahertz receivers.