Investigation of Quantum Transport in Nanoscaled GaN High Electron Mobility Transistors

{“@id”:”/api/v1/downloads/384″,”@type”:”Download”,”id”:384,”title”:”Investigation of Quantum Transport in Nanoscaled GaN High Electron Mobility Transistors”,”filename”:”SISPAD-2014_Investigation-Quantum-Transport-GaN-HEMT”,”abstract”:”In this paper, a comprehensive investigation of quantum transport in nanoscaled gallium nitride (GaN) high electron mobility transistors (HEMTs) is presented. A simulation model for quantum transport in nanodevices on unstructured grids in arbitrary dimension and for arbitrary crystal directions has been developed. The model has been implemented as part of the Vienna-Schro\u0308dinger-Poisson simulation and modeling framework. The transport formalism is based on the quantum transmitting boundary method. A new approach to reduce its computational effort has been realized. The model has been used to achieve a consistent treatment of quantization and transport effects in deeply scaled asymmetric GaN HEMTs. The self-consistent electron concentration, conduction band edges and ballistic current have been calculated. The effects of strain relaxation at the heterostructure interfaces on the potential andrncarrier concentration have been shown.”,”level”:null,”doi”:”10.1109/SISPAD.2014.6931593″,”status”:”published”,”remarks”:null,”files”:[{“@type”:”File”,”id”:1577,”name”:”SISPAD-2014_Investigation-Quantum-Transport-GaN-HEMT.pdf”,”bytes”:515351}],”tags”:[{“@id”:”/api/v1/download_tags/20″,”@type”:”DownloadTag”,”id”:20,”name”:”publication”},{“@id”:”/api/v1/download_tags/44″,”@type”:”DownloadTag”,”id”:44,”name”:”vsp”},{“@id”:”/api/v1/download_tags/59″,”@type”:”DownloadTag”,”id”:59,”name”:”pathfinding”},{“@id”:”/api/v1/download_tags/60″,”@type”:”DownloadTag”,”id”:60,”name”:”innovation”},{“@id”:”/api/v1/download_tags/71″,”@type”:”DownloadTag”,”id”:71,”name”:”new materials”}],”date”:”2014-09-11T00:00:00+02:00″,”authors”:”O. Baumgartner, Z. Stanojevic, La . Filipovic, A. Grill, T. Grasser, H. Kosina”}