Study of spin-polarization and electronic lenses in semiconductor nanodevices
||Study of spin-polarization and electronic lenses in semiconductor nanodevices|
||SNIC Small Compute|
||Iryna Yakymenko <firstname.lastname@example.org>|
||2022-06-01 – 2023-06-01|
The project is within semiconductor spintronics that promises a new paradigm for memory and logic fabrication in future nanodevices. The present project aims at systematic studies of spin polarization, spin localization and spin-dependent transport in low-dimensional semiconductor-based nanosystems such as quantum point contacts (QPCs) and quantum wires (QWs) created in GaAs/AlGaAs semiconductor heterostructures.
Our present project for years 2022-2023 supported by Carl Trygger Foundation aims at theoretical study of the electronic lens embedded to the semiconductor heterostructure. Experimental system contains three quantum point contacts, two of them serves as a spin injector and a spin detector. The conductance of the third asymmetrically loaded quantum point contact is tested by electronic lens and a detector QPC. Special attention will be paid to investigation of a realization of electronic lens in a semiconductor heterostructure in the case of a shallow confinement and study of the electron transport and conductance anomalies through asymmetrically loaded QPC in experimentally proposed electron focusing device.