Investigation of Junctionless Fin-FET Characterization in Deep Cryogenic Temperature: DC and RF analysis
Dariush Madadi
Abstract
This work presents the SOI Junctionless Fin-FET characterization in Deep Cryogenic behavior (DC-JLFET). Results show that the JLT device is well-suited for various operations, such as computation, sensing, and communication in the quantum field. The cryogenic transfer characteristics, including bias, and interface trap density, are analyzed over a broad temperature range (300 Kelvin down to 4.2 Kelvin). Cryogenic DC and RF analyses were done on the conventional double-gate JL-FET structure, operating at 300 K and below 4.2 K for different geometries. The suggested study illustrates that cryogenic status in the new technology CMOS can be correctly anticipated by calibrating data using an experimental device.
Topics & Concepts
CryogenicsCryogenic temperatureMaterials scienceCharacterization (materials science)OptoelectronicsTemperature measurementCMOSDopingFinSilicon on insulatorAtmospheric temperature rangeElectrical engineeringNanotechnologyPhysicsSiliconEngineeringMeteorologyQuantum mechanicsComposite materialSemiconductor materials and devicesAdvancements in Semiconductor Devices and Circuit DesignSilicon Carbide Semiconductor Technologies