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عنوان
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Fermi Velocity Modulation Induced Low‐Bias Negative Differential Resistance in Graphene Double Barrier Resonant Tunneling diode
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نوع پژوهش
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مقاله چاپ شده
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کلیدواژهها
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Esaki diode, Fermi velocity, negative differential resistance, nonequilibrium Green’s function, resonant tunneling diode
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چکیده
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Negative differential resistance (NDR) devices are adequate candidates for the functional devices applicable to the next-generation integrated circuit technology so-called “Beyond CMOS.” Here, a graphene velocity-modulation-barrier resonant-tunneling diode operating at room temperature is proposed. The current–voltage characteristics of the device are analyzed using the non-equilibrium Green's function technique. It is found that the Fermi velocity barrier in the well/barrier region manipulates the tunneling transmission probability by suppressing the Klein region and improving the resonant tunneling leading to NDR. For special values of velocity barriers, resonant states have maximum alignment with each other which increases peak current with a high peak to valley ratio (PVR). The width and the position of the NDR window are controlled and engineered by the device dimensions and the height of potential barriers. The smaller the device showed the better the NDR properties such as larger current density and maximum PVR. Taken together, the results reveal that adequate magnitude of the Fermi velocity in graphene barrier can be an impressive concept for the fabrication of emerging tunneling devices.
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پژوهشگران
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حسام الدین ایلاتی خامنه (نفر دوم)، سید مهدی ستاری اسفهلان (نفر اول)، جواد فولادی اسکوئی (نفر سوم)
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