Litcius/Paper detail

Ambipolarity Suppression of a Double Gate Tunnel FET using High-k Drain Dielectric Pocket

Shwetapadma Panda, Biswajit Jena, Sidhartha Dash

2022ECS Journal of Solid State Science and Technology16 citationsDOI

Abstract

The paper investigates the impact of placing a high- k dielectric pocket (DP) region in the drain of a double gate silicon TFET. The sheer existence of the high- k DP reduces the ambipolarity significantly due to the higher effective tunneling width at the channel/drain interface. The electrical performance investigation has been carried out by positioning the DP asymmetrically (Top or Bottom) and symmetrically on both sides of the drain. The Asymmetric DP Top configuration with an optimized thickness of 8 nm and length of 25 nm offers the lowest ambipolar current (I amb ) of 4.30 × 10 −16 A μ m −1 at gate voltage = −1.5 V, which is ∼7-decades lower compared to the conventional DGTFET. This reduced I amb further provides the highest I on /I amb current ratio of 4.63 × 10 11 without degrading the average subthreshold swing (SS) of 26 mV decade −1 . The small-signal parameter study and RF performance analysis of the device structure have also been carried out. The proposed TFET configuration can be one of the potential devices to be used in ultra-low-power integrated circuits and SRAM digital circuits owing to its suppressed ambipolarity and ease in the fabrication process.

Topics & Concepts

Materials scienceAmbipolar diffusionOptoelectronicsTunnel field-effect transistorQuantum tunnellingFabricationTransistorDrain-induced barrier loweringElectronic circuitVoltageSubthreshold slopeDielectricElectrical engineeringSubthreshold swingThreshold voltageField-effect transistorElectronPhysicsEngineeringQuantum mechanicsPathologyMedicineAlternative medicineSemiconductor materials and devicesAdvancements in Semiconductor Devices and Circuit DesignIntegrated Circuits and Semiconductor Failure Analysis