Please use this identifier to cite or link to this item:
Title: Au/As₂Se₃/Ag/As₂Se₃/Yb Schottky Barriers Designed as Multifunctional Devices
Authors: A. F Qasrawi
Al HarBI, S$Other$Other
Keywords: As₂Se₃/Ag/As₂Se₃
electronic switches
microwave cavity
Issue Date: 17-Feb-2020
Publisher: IEEE Transactions on electron devices
Citation: DOI: 10.1109/TED.2020.2968145
Abstract: In this article, Au/As₂Se₃/Ag/As₂Se₃/Yb Schottky barriers are formed and characterized. The devices prepared by the thermal evaporation technique under vacuum pressure of 10⁻⁵ mbar are observed to exhibit metal-induced crystallization process when coated onto Au substrates. Electrically, the arsenic selenide-based Schottky devices exhibited typical metal-oxide-semiconductor (MOS) characteristics with a built-in potential of 0.17 eV. The device shows resonance-antiresonance switching, negative capacitance (NC) effect, and high to low conductance switching features in the frequency domain of 10-1800 MHz. In addition, measurement of the impedance, amplitude of reflection coefficient, return loss (Lr), and voltage standing wave ratio (VSWR) spectra in the same domain have shown that the Au/As₂Se₃/Ag/As₂Se₃/Yb Schottky barriers display band stop features at 1180 MHz. The Lr and VSWR values at this critical frequency are 29.1 dB and 1.1, respectively. The electrical characterizations of the Au/As₂Se₃/Ag/As₂Se₃/Yb MOS devices have confirmed their suitability for use as parasitic capacitance cancellers, noise reducers, and as switching clock with selective switching time scales of switching delay time less than 0.40 ns.
Appears in Collections:Faculty & Staff Scientific Research publications

Files in This Item:
There are no files associated with this item.

Items in DSpace are protected by copyright, with all rights reserved, unless otherwise indicated.

Admin Tools